1、2023Future Intelligent Campus White Paper For Asia PacificUnleash the power of intelligence for a brighter futureHUAWEI TECHNOLOGIES CO.,LTD.May 2�������023The copyright of this white paper belongs to Huawei Technologies Co.,Ltd.Those who copy,quote,or use all or part of this White Paper in any other way m
2、us�������t indicate the source.Huawei Technologies Co.,Ltd.will investigate and affix legal liability to any individual or organization involved in the violation of preceding statements.Copyright NoticeBrought to you by Huawei Technologies Co.,Ltd.In partnership with OmdiaAdvisors(in alphabetical order):Ba
3�������、i Faming,Chen Dan,Chen Cailin,Deng Yong,Jason Kok Zhenwei(SIFMA),Liu Song,Liu Zhenhua,Niu Kun,Su Baohua,Song Junjing,Zhou XiaohongEditors:Wang Zhiming,Liu Yaoyao,Bai Haitao,Li Jinlun,Yue Zhonghui,Li Zhizhong,Ivy SunPrefaceThe world has been actively advan�����cing the digital economy,encouraging industri
4、al change,and constructing an intelligent society in recent years.A key factor behind the high-quality growth of the global economy is the current generation of information technology,which is typified by 5G,artificial intelligence,and virtual reality and this techn�������ology is deeply ingr������ained in a num
5、ber of different industries.The Asia-Pacific region has been setting the bar for digital technology investment and promotion as a pioneer in the dev��elopment of smart infrastructure.The accelerating wave of digitalization coupled with the catalyst of the epidemic,a new round of technological revoluti
6、on and industrial upheaval is spawning and developing.As individuals,families,and organizations progressively integrate with the digital world,life,business,and social structures are changing in w�������ays that have never been seen before.We shall be given an intelligent social form that exceeds our expec
7、tations thanks to sense,connection,and the intelligence of everything.In fact,with sweeping velocity,Io������T applications have begun to digitall������y tag every person,thing,and device.Everything,from cars to drones,from robots to cows and sheep,is increasingly developing omnipresent sense in the form of dat
8、a streams.Perception and connectivity will improve as a result of innovations in goods and technologies including intelligent terminals,wearable technology,high-definition video,and AR/VR.This will optimize the value of resources,further improve the qual��������ity of urban government in the digital era,inc
9、rease production efficiency,improve peoples well-being and convenience,and lead to unparalleled so����cial growth and advancement.The campus is crucial to this historic transformation.On the one hand,it serves as a fundamental p�����art of peoples lives and carries their aspirations for a better existence.On
10、 the other hand,it is the fundament������al com������ponent and a significant carrier of both industrial and national success since it is a complex of different production variables.As a result,a digital campus that integrates elements of both physical and digital world,which enables interactions between people
11、 and in an open,connected,interoperated and intelligent environment is taking increasingly important position in the city.In order to better supp����ort the intelligent evolution of div�������erse businesses and establish the groundwork for the complete creation of a smart city,the campus should take the initi
12、ative in promoting its own intelligent growth.The ����future intelligent campus provides us with limitless creative freedom.We look forward to di������scussing the design of the future intelligent campus with our friends and working together to advance it in the direction of advancing the overall well-being o
13、f human so that the growth of digital technology may more effectively benefit the society.Thomas LynchResearch DirectorGovernment&ManufacturingOmdia April 24.2023 Contents1.1 Macro Environment.051.2 Expectations and Challenges.071.3 Devel����opment Trends.08Macro-Environment and Development Trends/032.1
14、 Definition.172.2 Features.182.3 Blueprint Framework.19What Is an Intelligent Campus?/163.1 Intelligent Campus Construction System.213.2 Intelligent Campus So��������lution Architecture.233.3 Intelligent Campus Scenario Outlook.243������.4 Intelligent Campus Ecosystem.283.5 Planning-Construction-Operations Integr
15、ated Methodology.29Intelligent Campus System and Scenario Outlook/214.1 Benefits and Necessity of Top-Level Design.324.2 Top-Level Design Approaches.344.3 Key Points of Top-L��������evel Design.38Intelligent Campus Top-Level Design/316.1 Operational Concept and Value of the Intelligent C�����ampus.526.2 Establis
16、hing the Intelligent Campus Operational System.566.3 Huawei Intelligent Campus in Practice.61Intelligent Campus Operations/515.1 What to Build.415.2 Construction Roadmap.455.3 Key Points to Be Guarant��������eed.48Intelligent Campus Construction/40Future Intelligent Campus White Paper For Asia Pacific(2023)
17、Afterword/66References/677.1 UnionBanks Innovation Center Project.63Case Studies/63Future Intelligent Campus White Paper For Asia Pacific(2023)01IntroductionDigital technologies,such as artificial intelligence(A����I),the Internet of Things(IoT),cloud computing,5G,and bioengineering,are spearheading the
18、 Fourth Industrial Revolution.These advancements have seamlessly integrated into every facet of human society,unlockin������g unprecedented possibilities for digital integration and innovation across diverse economic and social fields.They have also catalyzed the emergence of an intelligent wo�����rld where ev
19、erything can be sensed,connected,and intelligent.IntroductionFuture Intelligent Campus White Paper For Asia Pacific(2023)02IntroductionDigital technology has emerged as a key driver of innovation and transformation in the global strategic and economic landscape.C�������onsequently,major countries are vying
20、 for supremacy in the high-tech sector,specifically in 5G and AI.The digital economy has become an indispensable tool for building new frameworks and mechanisms for economic growth����.In response,countries around the world are striving to implement digital transformation strategies to accelerate change
21、 and achieve economic and social sustainabili��������ty.Simultaneously,humanity is facing severe and urgent environmental challenges.Peaking carbon emissions and achieving carbon neutrality have become the most pressing priority for the world today.To this end,more than 110 countries have pledged to achieve
22、 the goal of carbon neutrality.We find ourselves in an era of unprecedented change,where campuses serve not only as innovative hubs for technology application,b������ut also as drivers of economic and social development and integral city infrastructure.However,these campuses face profound and complex envi
23、ronmental changes.Numerous explorations and practices have been conducted in recent years to construct intelligent campuses,and now we find ourselves at a critical ������juncture.The new era of fast-changing environments and ������technologies necessitate new standards and solutions for intelligent campuses.The
24、 p����rimary challenges lie in harnessing digital transformation opportunities to create new value,and in effectively designing,constructing,and operating intelligent campuses.Recognizing that intelligent campuses are tech-driven and continuously evolving,Hua������wei has collaborated with customers,partners,
25、and industry experts to consolidate internal and external experiences in building intelligent campuses and develop����ing the Future Intelligent Campus White Paper.The white paper addresses both the challenges and opportunities faced by intelligent campuses,delving into the best practices for planning,c
26、onstructing,and operating these campuses,while supporting their transformation and upgrade.5.0 trillionICT1.7 trillionFinance6.4 trillionManu����facturing0.5 trillionUtilities0.9trillionTransportation3.0 trillio�����nProfessional Services2.9trillionSocial&Personal Services1.1 trillionOther1.5 trillionRetailF
27、ourth Industrial RevolutionDigital TechnologyIndustry Digital Opportunities in 2025Source:Huawei GIV 2025,D�������igital SpilloverIntelligent WorldDigitalization Across IndustriesAll things intelligentBig data and AI �����applicationsAll things sensingSensing the physical world and mapping it with digital signa
28、lsAll things connectedData goes online to enable intelligenceFigure 1 The intellige�����nt world driven by digital������ technologiesFuture Intelligent Campus White Paper For Asia Pacific(2023)03Macro-Environment and Development TrendsMacro-Environment and Development TrendsDigitalization has emerged as a glob
29、al catalyst for innovation and transformation,serving as a key indicator of a countrys comprehensive strength and modernizati������on.Smart cities embody countries digital strategies and have become a battleground in global competiti�����on.New York,Singapore,and London rank among the worlds leading cities in
30、digital com������petitiveness and advanced digital capabilities.New York maintains its position at the forefront of global cities in digital competitiveness,bolstered by its high-quality digital innovation resources,open data initiatives,and global innovation centers.S�������ingapore has effectively digitalized
31、public services and social governance through �������its digital government and smart city initiatives,exemplifying a digitally empowered society.Macro Environment1.1Future Intelligent Campus White Paper For Asia Pacific(2023)04Macro-Environment and Development TrendsFigure 2 Digital competitiveness index
32、of major global citiesNew technologies and evolving requirements have prompted industries to undergo transformation,enhancing efficiency,lowering operating costs,and comprehensively imp��������roving user������ experience.Moreover,they have continuously spurred innovation in products,services,operating models,and
33、 business models.71.6169.8869.5565.8757.6155.7652.9952.9852.1449.54New YorkSingapor�������eBeijingShanghaiLongdonSeoulParisHong KongShenzhenTokyoDigital InnovationDigital EconomyDigital GovernanceDigital ServicesDigital SecurityFigure 3 Digital transformation driven by technologies and requirementsPull Pus
34、�������h Digital Transformation Requirement:Beyond Expectations Technology:Disruptive Development Internet of Things Digital Production Big Data Analysis&Machine Learning Industry 4.0&Sensors 5G,AI,VR/AR.Everything Sensing and Connected Product and Service Customization Cross-Border Convergence Data-Driven
35、 U�������ser Sovereignty,Fast Response.Cloud Solutions Changing Productivity 4.0 �����01010101 01010101 01010101 Campuses serve as fundamental city infrastructure and testing grounds for the worlds leading cities to progress towards smart city status.They play a pivotal role in this transition process.Countries
36、 such as the United Kingdom,Singapore,and Canada are actively building intelligent campuses,implementing innovative,green,low-carbon,agile,human-centric,and practical development.These efforts have yielded significant economic and social benefits.Future Intelligent Campus White Paper For Asia������� Pacifi
37、c(2023)05Macro-Enviro�������nment and Development TrendsNameCityCore ConceptPositioning and Features of Intelligent CampusesHere EastLondon,UK Human-centered Agile awarenessAs Europes largest innovation and technology campus,it has transformed what was once an Olympics Media Centre into a thriving communit
38、y of creativity and excellence in London.It uses smart office and environment contr������ol scenarios to enrich the interactive experience of its customers and create a campus with a distinctive intelligent sensing featur����e.It aims to become a cradle of innovation for London and the world.Hudson YardsNew Y
39、ork,US Open and diverse Human-centered Intensive���� and efficientLeve���������raging technology,it offers digital solutions across various domains to develop a sustainable smart urban area with features such as smart cooling systems,fresh air systems,and rainwater collection devices.Its goal is to build smart b
40、uildings and communities that cater to the demands of digital economy enterprises and millennials.Punggol Digital DistrictPunggol,Singapore Element innovation Open and diverse City-industry integrationJTC C�������orporation,the leading developer,has used the integrated master planning method to create a sm
41、art campus th������at follows the concept of business and learning integration.It is a smart innovation campus that combines R&D,office,residential,and commercial areas.It also has a shared open digital platform that allows access to regional public data and encourages everyone to participate and����� co-creat
42、e inside smart campus.Sidewalk LabsToronto,Canada Human-centered Agile awareness Element innovationAs an experimental area for future cities,Sidewalk Labs is backed by Googles parent company(Alphabet���)and is the worlds first smart urban area that relies on network and data.It uses large-scale sensor
43、systems and networks,new energy technologies,autonomous driving,and modular housing to address urban challenges such as operation,transportation,housing,and energy.Its goal is to create a��������n innovat�����ive smart community that puts human needs first.Barcelonas 22 Technological DistrictBarcelona,Spain Open
44、 and open source Intrinsic innovationIt is a globally acclaimed zone of technological innovation,dubbed the Spanish Silicon Valley.It is a leading example of how to transform and develop waterfront industr�����ial areas.Leveraging the opportunity of being a pilot zone for Barcelonas Smart City initiative
45、,it has become a global hub for innovation.It turns the city into a dynamic urban laboratory by creating diverse smart scenarios such as smart street lights,smart business service platforms,and 5G music festivals.Hammarby Lake CityStock������holm,Sweden Practicality first Green and low carbonIt is a world
46、-class urban area that follows the 12 Green Guidelines and 6 Smart Guidelines for smart and green developm�����ent.It implements 12 smart solutions,such as low-energy communities,smart waste collection,and smart street lights,to build a smart eco-friendly urban area.It received the City Award at the Smar
47、t City Expo World Congress.Aspe�������rn Smart CityVienna,Austria Green and low carbonAs a global showcase of renewable and green energy in smart citi��������es,this 2.4-square-kilometer site is also Europes future city“laboratory”.It uses smart buildings,energy,and grids to achieve green and sustainable developme
48、nt with various technologies.It also implements sustainable building energy management and automatic building control with high-precision data collection and integrated solutions.The Asia-Pacific region h�������as experienced rapid urbanization,which has created challenges in peoples lives,ecological envir
49、onments,and urban governance.To address these issues,major Asia-Pacific economies have promoted smart c�������ity construction and offered ������policy guidance and digital infrastructure support for building and upgrading smart campuses.Table 1 Intelligent campus/urban area concepts in major global citiesFuture
50、 Intelligent Campus White Paper For Asia Pacific(2023)06Macro-Environment and Development ������TrendsSingapore������:In 2006,the Singapore government launched the Smart Nation 2015 Plan,aiming to build a secure,high-speed,economical,and scalable national communication infrastructure,obtain more real-time data
51、through a network of sensors across the country,and anonymize,manage,and share key data.The plan also envisioned using data analysis to better predict the needs of society and to provide better services.The plan supported the development of digital society,g������overnment,and economy,and promoted the sma
52、rt transformation of Singapore.In 2015,the Smart Nation 2025 Plan was introduced to strengthen innovation in government management mechanisms and optimize the development envi�������ronment.The plan also aims to use digital applications to enable urban operations and management,enable social digital govern
53、ance,and improve peoples livelihoods.Thailand:In 2016,Thailand launched its Thailand 4.0 strategy with the aim of promoting economic development through innovative industries.The strategy includes a 20-year vision,with a central component being���� the Smart City Program,which looks to integrate digital
54、 technology,energy an������d transportation to enhance residents quality of life.To qualify as a smart city,a city must meet five criteria:clear scope and goals,infrastructure investment and development plans,open and secure urban data platform design,smart city solutions,and sustainable management model�������s
55、.In 2020,DEPA set a goal to have 100 smart cities nationwide to i�������mprove the economy and quality of life in line with the 20-year national strategic plan,and it further launched Smart City Ac������celerator Program Batch in 2021.Malaysia:In its 12th five-year plan in 2019,the Malaysian government prioritiz
56、ed smart city construction.To facilitate this development,the government launched two programs:Kembara Digital Malaysia and the National Fiberization and Connectivity Plan,whi�������ch aimed to improve infrastructure.The Malaysia Smart City Framework was also introduced,streamlining smart city development
57、and providing policy support.Indonesia:The Indonesian government released a smart city master����� plan in 2013,which outlined six pillars:governance,people,economy,transportation,living standards and environment.With a vision to establish 100 smart cities by 2045,the government considers smart cities a
58、primary solution to urbanization challenges.This initiative has paved the way for the national-l������evel smart city masterplan and the presidential vision of transforming the country into a smart nation.Hong Kong:The Innovation and Technology Bureau of the Hong Kong Special Administrative����� Region(HKSAR)u
59、nveiled the Hong Kong Smart City Blueprint 2.0 in December 2020�����.This blueprint covers six areas:smart mobility,smart living,smart environment,smart people,smart government,and smart economy.The overarching vision is to embrace innovation and technology to build a world-renowned Smart Hong Kong,char�����a
60、cterized by a strong economy and high standard of living.Japan:In July 2009,the Japanese government launched the I-Japan 2015 Strategy,aiming to create a citizen-driven,dynamic digital society by 2015.This strategy sought to integrate digital information technologies into production and li������fe,so that
61、 they become as seamless as air and water.The gover������nment also released smart city governance strategies and key construction areas for Japan,and put them in practice.South Korea:South Korea is building a green,digital,and seamless mobile-connected smart city based on advanced networks.Using wireless
62、 sensors,all resources in South Korea are digitalized,networked,visualized,and intelligent.At the national level,U-City Future Intelligent Cam������pus White Paper For Asia Pacific(2023)07Macro-Environment and Development Trendsalong with open data policy serve as a tool for urban revitalization;while at
63、the local level,it functions as a technology-driven infrastructure tha�����t delivers public services and fosters transparent governance in communities.Digitalization is gaining momentum around the world,impacting governments,enterprises,industries,and individuals.It is a driving force for innovation and
64、 transformation,whe�����ther in Singapores Smart Nation 2025 or Thailand 4.0.This momentum will encourage industries to introduce new experiences in production and everyday life,generating new value for society.1.2.1 Stakehold������ers ExpectationsGenerally,there are four types of stakeholders.Each has unique
65、requirements for campuses.Governments/Regulators:Their prim����ary responsibility is the macro planning of campuses,with a focus on industrial economic development and improving the governance of peoples livelihoods.They aim to improve the comprehensive management �������capability of campuses,support balanced
66、 industry development�������,and promote high-quality GDP growth through intelligent campus construction.Moreover,they aim to ensure health and safety,orderly production,environmental protection,and talent employment through intelligent campus management.Operator�����s/Managers:These stakeholders want to reduce
67、 investment risks,improve ROI,and maintain and increase asset value through intelligent campus construction.They also seek to innovate business models and impr����ove the operating efficiency of campuses by sharing campus data and fully uti����lizing resources.Furthermore,campus managers want to increase th
68、e satisfaction of enterprises and users,enhance user loyalty,and attract more enterprises and users through digital operations and diversified services.Enterprises/Merchan������ts/Institutions:They mainly focus on the symbiotic development of the industrial ecological chain and intelligent services.They l
69、everage intelligent technologies to achieve mutual benefits and win-win outcomes within the ecological chain,enhance business operations and value,and attract and retain talent.Residents/Users/Visitors/Consumers:As the most extensive group of stakeholders,they want c����ampuses that are safer,healthier,
70、more comfortable,and that offer more efficiency,convenience,and ease for living,working,and leisure activities.They envision future campuses as warm and harmonious spaces,rather than col��������d,impersonal physical environments.Expectations and Challenges1.2Figure 4 Requirements of campus stakeholdersGover
71、nments/Regulators(B2G)Enterprises/Merchants/Institutions(B2B)Campus Operators/Managers(B2O)Users/Visitors/Consumers(B2C)Industrial and economic development G������DP and tax Balanced development Land utilizationLivelihood governance and improvement Safe operations Environmental protection EmploymentCampus
72、 operations Increase the return on investment(ROI)Reduce investment risks Develop new business models to generate m�����ore revenue(leasing,services,and data monetization)Ca�������mpus management Reduce labor and power consumption costs Manage and operate property and assets more efficiently Improve the enterpr
73、ise and user satisfactionSustainable busine����ss growth A favorable business environment and enterprise services,better brand image,and su����stainable growthHigher efficiency and talent retention Help employees work more efficiently Attract top talent and reduce the employee attrition rateEcosystem develo
74、pment A robust ecos������ystem to develop both upstream and downstream enterprisesHealth and safety Green,low-carbon,secure,and������� controllable intelligent spaceComfortable and convenient experience Flexible and easy access to various facilities and personal servicesSocial networking and personal growth Meet
75、 like-minded peers in open social spaces and platforms Future Intelligent Campus White Paper For Asia Pacific(2023)08Macro-Environment and Development Trends1.2.2 Challenges for CampusesAs campuses evolve,management scopes expand,and servic�������e complexities increase,so do the needs of production and pe
76、ople.But the infrastructure and services of campuses are often limited and struggle to keep up with these needs,creating a widening gap.Therefore,campuses face challenges in terms of security,experienc�������e,cost,and efficiency.To be specific:Campus infrastructures such as low voltage systems,networks,an
77、d data centers are outdated and need to be upgraded.They have independent w��������ired and wireless networks that are not connected to each other,which prevent them from a��������chieving intelligence.Without top-level design,campus construction will face problems such as backwardness,repeated investment,and evolu
78、tion difficulties.Traditional campuses lack top-level design.����They have no systematic and forward-looking planning and rely solely on fragmented functions.Their subsystems are isolated and the construction of new infrastructure can take several years to complete.Campus management is inefficient and o
79、f a poor standard because it depends heavily on manual work.This consumes a lot of human resources unnecessarily.Secur������ity,for instance,is provided by security guards who respond to issues passively rather than proactively,while managers focus on construction rather than continuous operations.Ineffec
80、tive data collection,inte������gration,and processing lead to low operational efficiency and investments that do not yield significant improvements.The intel����ligence level is low because user experience is neglected and physical facilities are prioritized.Facilities and spaces cannot perceive peoples needs
81、 or provide proactive services.Supervision takes precedence over service.For instance,new office buildings,parking lots,and roads are built on campuses at a high cost,but without visualized management and intelligent linkage,user experience remains poor.IT systems are siloed,which prevents data�������� from
82、 being shared effectively.Data acquisition is also difficult.In addition,data mining is weak and data applications are limited.Even if a single department or service tries to improve intelligence,it cannot achieve overall intelligence due to the lack of interconnectivity.In summary,stakeholders ha�����ve
83、 more diverse and higher requirements,and traditional campuses can no longer satis����fy the increasing demand for tailored services,comprehensive management,and detailed operations.The pursuit of intelligent campuses is imperative.There have been three major������� economic stages in human history:the agricul
84、tural economy,ind�������ustrial economy,and digital economy.Each has had different factors of production and required dif�����ferent infrastructure.For example,transportation and water conservancy were the main forms of infrastructure in the agricultural era;energy-related infrastructure was added in the indust
85、rial age;and ICT infrastructure emerged���� in the digital economy era.These infrastructures are driven by core produ�������ction factors such as data and computing power,which have triggered industrial transformation.In the case of intelligent campuses,functions such as intelligent sensing,interaction,and ser
86、vices need to be integrated.In the future,smart buildings will become smart terminals that can sense and provide appropriate physical,psychological,and safe environments for people.This will enable value-oriented model innovation,platform-enabled symbiotic development of the industry ec������osystem,data-
87、supported operational excellence,all-factor aggregation,and a�������ll-scenario intelligence.Development Trends1.3Future Intelligent Campus White Paper For Asia Pacific(2023)09Macro-Environment and Development TrendsFigure 5 New������� economic forms driven by technologyAgricultural Economy Converged Infrastructu
88、re Digitalization Means of Production Production Tool Productivity Coal/Oil/Mining Heat/Electricity Machinery Big Data Computing/Network Cloud Computing AI Land Human/Animal Hoe/Plow/Shovel Road B������ridge Reservoir Road Bridge Airport Port Oil/Gas Power�������� Plant/Grid IoT Fiber Network Wireless Network Sat
89、ellite Network Positioning����&Navigation Near-Earth Communications Disaster Recovery General-Purpose Computing AI Storage Cloud Platform Big Data Smart City Public Security Smart Transportation Smart Logistics Smart Environmental Protection.Information Infrastructure Digitalization Digital Economy Cana
90、l Railway Industrial Economy Blockchain Intellig�����ent Campus Platform Enablement Industry Ecosystem Value Orientation Model Innovation Data Support Operational Excellence Scenario Convergence Ultimate Experience Innovative Infrastructure Digitalization Driven by the development of digital technologies
91、 and new economic and social requirements,intelligent campuses are also developing and evolving.From the perspective of intelligence,Huawei summarizes the developm��������ent of intelligent campuses to include three stages and four levels.The initial level Intelligent Campus 1.0 builds basic intelligent inf
92、rastructure and single-point intelligence based on streamlined �����vertical systems,such as intelligent access and video security.These systems can provide corresponding intelligent functions and services based on a single system.Currently,most campuses are still in the Intelligent Campus 1.0 stage.The
93、������transition from Campus 1.0 to Campus 2.0 is an evolution from the traditional vertical system architecture to a hierarchical architecture based on digital platforms.A digital platform is the prerequisite for reaching the Developing level.Then,the process from Developing to Mature depends on constant
94、 data accumulation,data usage,and service improvement.When platform capabilities,data acc�����umulation,and������ applications reach the Advanced level,AI is integrated into all aspects and the intelligent campus will undergo qualitative changes again.The Campus 3.0 stage will achieve all-factor aggregation an
95、d all-scenario intelligence,and enable data-driven automatic decision-making,self-learning,and self-evolution.It will bring new service experiences to production and life,as well as new value to society.Future Intelligent Campus White Pape�������r For Asia Pacific(2023)10Macro-Environment and Development T
96、rendsFigu�����re 6 Intelligent campus evolution stagesThe evolution of intelligent campuses is still ongoing.With the comprehensive application �����and deep integration of digital technologies in economic and social fields,new trends have arisen in campus development,such as zero carbon,all-scenario intellig
97、ence,and full-lifecycle ecosystems.Campu������s 1.0 Campus 2.0 Campus 3.0 Intelligence Low High Modernize legacy infrastructure,and deliver intelligent experiences in one scenario.Build a digital platform.Manage and link all intelligent scenarios on the platform.Converge all data sources and mine the valu
98、e of data to support lean operations and shared services.Enhanced foundation and sporadic intelligence Aggregate all elemen�������ts,achieve intelligence in all scenarios,make decisions driven by data,and create value for customers.Initial Developing Mature Advanced AI Digital platform Platform support and
99、 scenario linkage Data convergence and lean operations Self-learning and self-evolution 1.3.1 Zero CarbonA zero-carbon campus is an intelligent campus that is built on the foundation of comprehensive digital enablement.It integrates the concept of carbon neutrality������ into the entire life cycle of camp
100、us planning,construction,and ope������rations.It uses digital technologies to implement carbon neutrality measures,such as energy conservation,emission reduction,carbon monitoring,carbon trading,and carbon accounting.This helps manage and schedule power generation,grid,load,and storage in a centralized cl
101、oud-based way.This also drives low-carbon development,green energy transformation,resource recycling,and facility sharing.This is a new type of intellige������nt campus where carbon emissions and absorption are balanced and production,ecosystem,and lifestyle are deeply integrated with one another.The cons
102、truction of a zero-carbon intelligent campus will also �����promote the integration of digital technologies and zero carbon efforts.This will accelerate the promotion of energy conservation and lo������w-carbon technologies and products,drive the development of green technologies,devices,and services,and estab
103、lish a low-carbon green industry cluster.Additionally,a zero-carbon intelligent campus will promote the agglomeration of emerging strategic industries and low-carbon transformation of enterprises.It will also drive low-carbon lifestyle innovation,optimiz�������e living environments,enhance residents happin
104、ess,and promote the sustainable development of cities based on low-carbon energy supply,information infrastruct����ure,and lifestyles.Future Intelligent Campus White Paper For Asia Pacific(2023)11Macro-Environment and Development TrendsAs zero-carbon intelligent campuses become more common,it highlights
105、 the importance of green production,low-carbon lifestyles,and systematic green developmen������t.Enterprises are using digital technologies to pursue carbon neutrality and achieve intelligent and low-carbon development with the following characteristic�����s:Low-carbon/Zero-carbon energy infrastructure:Traditi
106、onal energy infrastructure emits a lot of carbon and takes many years to break down,maki�������ng it hard to reduce carbon emissions.New energy infrastructure must transform to become zero-carbon focused.We can use different technologies to make our energy infrastructure,transportation,and environment,more
107、 zero-carbon focused.For energy infrastr������ucture,we can use photovoltaic,microgrid,hydrogen energy,and energy storage to create a renewable energy system and �����a smart grid.For transportation,we can use new energy vehicles with charging,battery swap,and hydrogenation facilities,and technologies like V2G
108、 and wireless charging.We can also have a multi-mode and convenient public transport network with driverless shuttle buses on campuses.When it comes to environmental protection efforts,we can follow the principle of emission reduction and resource recycling in solid waste and waste water managemen������t,
109、and build and share public facilities for sewage treatment,reclaimed water reuse,and solid waste disposal on campuses.For other infrastructure,we can use green building materials and technologies like Photovoltaic,Energy storage,Direct current,Flexib�������ility(PEDF)and Building Integrated Photovoltaics(B
110、IPV)to modernize buildings.We can also util�������ize high-efficiency energy-saving devices to improve the interior environment of buildings and reduce the energy needed for heating,air conditioning and lighting.Photovoltaic power generation is a technology that converts light energy into electric energy u
111、sing the photovoltaic effect of semiconductor �����interfaces.It has become a promi���nent feature in the global development of renewable energy technologies.Microgrid technology refers to a small power generation and distribution system composed of distributed power supply,energy storage,energy conversion,
112、load,monitoring and protection devices.With the smart microgrid system,campuses can produce some of their own power and reduce their dependence on power���� plants,cutting power costs by more than 30%.For instance,Singapores Punggol Digital District built Southeast Asias first campus with smart microgri
113、d technology and regional cooling systems,which enhances energy efficiency,lowers carbon emissions,and saves energy consumption costs for enterprises on the campus.Adopting hydrogen energy techn�������ology is vital to r������eaching carbon neutrality,and can be used in various fields such as transportation,indu
114、stry,and construction.As renewable energy sources like solar and wind grow rapidly,green hydrogen will become the key to the advancement of hydrogen energy.Energy storage technology can save excess energy and relea�����se it when needed.It can prevent fluctuations in intermittent Figure 7 Energy and info
115、rmation revolution trends 5th Industrial Revolution Wood Coal Oil Nuclear Energy PC Internet Mobile Internet Meta Universe Intelligent World In�����dustrial Internet Energy Revolution Information Revolution Carbon Neutrality 1st Industrial Revolution 2nd Industrial Revolution 3rd Industrial Revolution 4t
116、h Industrial Revolution Digital Economy Industrial Economy Agricultural Economy Solar Energy Renewable Energy Wind Energy Clean Energy Hydropower Natural Gas 5G AI Cloud IoT.Future �����Intelligent Campus White Paper������ For Asia Pacific(2023)12Macro-Environment and Development Trendsrenewable energy output
117、and solve the problem of renewable energy plants not being able to supply power in extreme weather.It is essential to achieving carbon neutrality.Bas�����ed on the principle of ����energy storage technology and the difference of storage forms,energy storage systems can be classified into electrical,mechanica
118、l,chemical,and thermal energy storage etc.,which include power,cold,heat,and hydrogen storage.PEDF is a combination of solar photovoltaic,energy storage,DC distribution,and flexible interaction technologies.The P and E st������and for distributed photovoltaic and distributed energy storage respectively,wh
119、ich will become a key part of the building power distribution and consumption system.The D stands for the switch from tradi�������tional AC distribution networks to low-voltage DC distribution ne�����tworks.The F stands for the ability to interrupt and adjust power-consuming facilities in buildings,so that powe
120、r demands can be changed from rigid to flexible.Such buildings will become a crucia�������l support for zero-carbon campuses.Low-carbon/Zero-carbon information infrastructure:Information technologies,with advanced networks and fast network speeds,have brought great convenience to �����peoples lives,People can n
121、ow take advantage of online offices,online learning,and e-healthcare services.������However,th��������is also requires massive computing power,large data storage,and high volumes of energy.According to a study by McMaster University in Canada,ICT will be responsible for up to 14%of global carbon emissions by 2040
122、,up from 1.6%in 2007.Data centers were responsible for 45%of the carbon emissions o�����f the whole industry in 2020,followed ���by communications networks and devices.In the context of digital transformation in all fields,information infrastructure,as a big electricity consumer,will face a new round of gre
123、en revolution,and the improvement of energy efficiency of facilities and the construction of green infras�����tructure will be prioritized.For this reason,Huawei p�����roposed the zero-carbon network in 2021 and released a zero-carbon network solution based on digital energy,which consists of four sub-solutio
124、ns:s������implified sites,simplified equipment rooms,simplified data centers,and ubiquitous green power,integrated with the smart power cloud.Simplified sites involve moving sites from indoors to outdoors and reducing their carbon footprint by downsizing from rooms to cabinets and poles.This will lower en
125、ergy consumption,electricity costs,and rent.Simplified equipment rooms can enable capacity expansi����on without adding more equipment rooms,cables,and air conditioners.This reduces energy consumption and spa������ce and avoids heavy construction workloads.Simplified data centers require a prefabricated and m
126、odularized architec����ture which improves power s�������upply and energy efficiency,and enables predictive maintenance.Compared with the traditional chilled water solution,the indirect evaporative cooling solution reduces energy consumption by 17%,and the intelligent O&M solution increases efficiency by 35%.U
127、biquitous green power means br�������inging green power onto sites,into equipment rooms,and into data centers to build green connections and computing.The smart power cloud can cut power consumption costs and improve energy efficiency through integrated management of power generation,grid,load,and storage.
128、Low-carbon/Zero-carbon production and lifestyle:Reaching carbon peak and neutrality requires broad and profound changes to our economic and social systems.This is a common responsibility for all of society,not just for producers.Members of society n�������eed take action in two key areas:product�����ion and lif
129、estyle.To achieve zero-carbon transformation in the lifestyle sector�������,we need to adopt and promote the concept of green���� living.This includes supporting and using green,recyclable and eco-friendly products,such as energy-saving light bulbs and water-saving appliances.We also need to reduce food waste,
130、avoid disposable items like single-use cutlery,paper cups and plastic bags,and use fully biodegradable plastic packaging.Moreover,we need to sort and recycle our waste,and prioritize walking,c����ycling,and using public transportation over �����driving.Zero-carbon transformation in the production sector requ
131、ires a comprehensive system engineering approach.It involves not only upgrading related infrastructure,but also applying green low-carbon technology and equipment,e������nhancing energy resource efficiency,and using clean-energy devices.For example,traditional industries should promote energy-saving and e
132、lectrification of key equipment systems such as boilers,motors,and fans in factories,and innovate technologies su������ch as coal sub������stitution and hydrogen energy in high-energy and high-emission processes such as blast furnace steelmaking and clinker firing.They should also use solid waste such as scrap
133、steel and sludge as raw materials to achieve resource recycling and energy cascade utilization.Future Intelligent Campus White Paper For Asia Pacific(2023)13Macro-Environment and Development Trends1.3.2 All-Scenario IntelligenceThe innovation a�������nd integration of next-generation ICTs and knowledge wil
134、l create fission effects.5G networks with high speed,low latency,and large capacity enable seamless and ubiquitous conn�����ectivity.Cloud computing makes computing power and AI accessible and convenient,and enhances service cloudification and O&M agility.AI leverages massive data,computing power,and ind
135、ustry knowledge to generate new service experiences,new scenario applications,and new for�������ms of industry.The convergence and collaborative innovation of 5G,cloud,AI,and computing technologies enable campuses to achieve intelligence across all scenarios.All-scenario intelligence is a new stage of camp
136、us development.It does not consist of disjointed local innovation and intelligence but full-process linkage.Instead of isolated applications,converged and integra����ted services are provided and are accessible anytime,anywhere.They are refl�������ected in data convergence,scenario linkage,and agile innovation
137、.Intelligence is displayed in every corner of a campus,enabling �����accurate analysis,systematic prediction,collaborative command,scientific governance,and scenario-based services for the entire campus.The core support for all-scenario intelligence is inseparable from the collaboration of the digital br
138、ain and intelligent applications,platforms,and������� connections.Intelligent connections:Enable the seamless integration and interaction of the physical and digital worlds by using advanced physical co��������nnections such as 5G,F5G,Wi-Fi 6,and IP that provide ubiquitous coverage and the interconnectivity of eve
139、�������rything.Intelligent platforms:Leverage smart connections to create a unified foundation that supports the digital world of intelligent campuses,empowers applications,data and inclusive AI,and facilitates smart applications for all scenarios.Digital brain:The Intelligent Operation Center(IOC)acts as
140、the digital brain of a campus.It generates real-time 2D/3D rendering with operational data,helping y�����ou visualize,understand,and manage overall campus opera��������tions.Intelligent applications:Integrate emerging digital technologies with industries,such as commercial real estate,universities,office and ind
141、ustrial parks,and stadiu��������ms,to improve experience,streamline processes,and foster innova������tion.For example:Stadiums:Intelligent stadiums use technologies such as 5G and Wi-Fi coverage to enhance users viewing experience and offer various convenient services like ticket booking and food delivery.They al
142、so employ VR/AR and ������8K ultra-HD to create a unique,high-quality,and immersive on-site viewing environment.Moreover,they utilize IoT and big data to dynamically monitor stadium equipment and security,reducing costs,i�������ncreasing efficiency,and ensuring security.Figure 8 Single-point intelligence to all-
143、scenario intelligenceDevices Users Platforms Content Services Enterprise Service AppSecurity Management AppEnergy Management AppFacility Management AppIntelligent Office Intelligent Security Intelligent Energy Intelligent Facility Before:Sporadic and separated �������intelligence F5GIoTDigital PlatformOper
144、ational Ana��������lysis Decision Support Resource Coordination Intelligent Warnings After:Comprehensive and connected intelligence Intelligent Platforms Intelligent Connections Intelligent Applications Digital Brain Wi-Fi 6Smart OfficeSmart EnergySmart SecuritySmart AccessSmart FacilityComputing|Storage|Ne
145、twork|Security|Blockchain5GIPFuture Intelligent Campus White Paper For Asia Pacific(2023)14Macro-Environment and Development Trends Industrial parks:Emerging technologies enable harmonious development.Intelligent industrial parks leverage technologies such as big data and blockchain to aggregate������� ind
146、ustry data,streamline upstream and downstream industries through data convergence,and access high-value ecosystem resources as needed.Technology facilitates compreh��������ensive aware������ness of campus situations,analyzes operational efficiency,improves campus management,and lowers operational costs.Technology
147、 also attracts a greater number of investments.Big data and AI can be used to build industry and enterprise databases,track the development trends of target enterprises,analyze the preferences of onboarding enterprises,and optimize investment attraction strate���������gies.Figure 9 Application of emerging te
148、chnologies at intelligent stadiumsUltimate Experience:Convenient,Seamless,ImmersiveSeamless Wi-Fi access and arange of convenient services forspectators5G Wi-Fi VR/AR Easy wayfinding with VR/ARtechnologies8K Ultra HD Realistic������ and smooth gamingvisuals with 5G+8KtechnologiesVR Photo Capturing a momen
149、t with astar using VR technologySmooth Assurance:Security ����Control,Reliable SupportDeploying AI cameras forcomprehensive securitymonitoring and protectionAI Big Data Using big data technologiesto deliver timely andeffective fire responseIoT������ Real-time security scanningand warning with IoTtechnologiesI
150、nfrared Thermometer Epidemic prevention andcontrol when neededEfficient Operations:Lower Costs,Higher Efficiency,One-Stop Man��������agementUsing IoT technologies forreal-time intelligentmanagement of energyconsumption and efficiencyIoT Big Data Using big data technologiesfor creating a clean andcomfortable
151、 environmentIoT Dynamic monitoring ofdevices with IoT and bigdata technologiesCloud Computing ������Intelligent asset monitoringand co�����unting based on IoTand cloud computingSpectator Staff Next-Generation IT Applications Enable Intelligent Stadiums Smart LivestreamingConvenient Wi-Fi serviceGuided tourVirt
152、ual interactive serviceSecurity monitoringSecurity and firefighting linkageSecurity inspectionTemperature meas���urementReal-tim�������e energyconsumption managementEnvironmental monitoringDynamic device monitoringAsset monitoring and countingIntegrated ICTs and an enhanced digital technology foundation will
153、pave the way for innovation and stimulate convergence,collab�����oration,and fusion reactions in various application scenarios,supporting innovative,fa�������st,and flexible services in campus operations.Figure 10 Application of emerging technologies in intelligent industrial parksPrecision Investment Attractio
154、n Using big data and AI technologies,we can integrate data from multiple sources to gain industry insights,monitor the growth of potential enterprises in the leading sectors,assist in attracting investments,and optimize investment strategies.���Thriving Industry Ecosystem Deploying AI,cloud computing,a
155、nd big data technologies to connect different ecosystem resources,optimize the industry value chain,and promote industry-wide prosperity.Quality and Innovative Services Cloud computing technologies and one-stop platforms are used to accurately serve enterprises.Efficient ������Operation and Management Eff
156、icient security and energy management based on IoT and AI technologies Drive Campus Services integ�����rated with technologies.Industry Service Intelligent Industrial Campus Next-Gen IT AI Big Data IoT�������� 5G Investment Attraction Campus Operation Property Mgmt Planning&Consulting Blockchain Cloud Computing.
157、Future Intelligent Campus White Paper For Asia Pacific(2023)15Macro-Environment and Development Trends1.3.3 Full Lifecycle Ec�����os������ystemFuture smart campuses will reshape development patterns from a broader perspective in response to major drivers such as global macro trends,technological developments,a
158、nd industry transformation.They will also build a r������eward mechanism through innovative business models to create a thriving �������industrial ecosystem,gradually forming a new circumstance that serves the entire project lifecycle and collaborative development of multiple parties.Traditional campus construct
159、ion has a well-established process that involves multip���le parties and phases,such as planning,construction,and O&M.However,intelligent campuses differ from traditional ones in their concept and content.They are still exploring and improving how to plan,build,and operate them effectively.Moreover,the
160、y lack matur������e mechanisms for operation management,profit making,multi-party collaboration,and value assessment.As stakeholders demand higher intelligence and technical capabilities,it is crucial to build an ecosystem that covers the whole lifecycle and links multiple parties together.Intelligent cam
161、puses also face rapid changes in technologies,products,construction approaches,and management methods.This requires more efficient collaboration among participants in different phases to ensure quali�����ty and performance.Therefore,intelligent campuses urgently need full-lifecycle management to achieve
162、data connectivity,new economic growth,and business logic innovation.The key points to consider are as follows:Full lifecycle management:Full-lifecycle management should guide the who��������le process of investing,planning,�������building,and operating intelligent campuses.It should coordinate all elements involve
163、d,such as operati�����on management personnel and ecosystem cooperation resources,and minimize the conflicts within and between these elements to maximize the overall social value throughout the lifecycle.The lifecycle management should focus on value creation and service experience.We must build a close
164、d-loop chain for campus management and operations by connecting data and other������ elements.During the construction a�������nd operations,we must pay attention to the forward-looking planning,connectivity of each link,synergy between elements,and efficiency of resource allocation.This way,we can improve the de
165、velopment planning,construction management,and continuous operations of intelligent campuses.Collaborative ecosystem construction:An intelligent camp������us has many participants and stakeholders involved in its full l�����ifecycle,such as government agencies,investors,builders,technology providers,product se
166、rvice providers,operation service providers,content providers,and financial institutions.The initial investment is huge and th���e lifecycle is complex.Therefore,when planning an intelligent campus,we should consider the needs of all parties along with future construction and operation.Construction tea
167、ms should not only make feasible implementation plans,but also think about the operation models that are put in place after completion.The operators should consider operations early in the plannin�������g and construction phase,design inno�������vative business models for different application scenarios,and find
168、sustainable revenue sources.We can improve collaboration ����among all parties��� by enhancing trust and communication.The openness and sharing of resources should be based on the agreement between relevant parties to build and share in the ecosystem together.Future Intelligent Campus White Paper For Asia
169、Pacific(2023)16What Is an Intelligent Campus?What Is an Intelligent Campus?Campuses are considered a basic form of city infrastruc������ture.They integrate various aspects of production and lifestyles,and conn�������ect individuals and society,families and countries,industries and governments.Statistics show tha
170、t we spend 22 hours a day on different campuses,from residential communities to industrial parks,from educat�����ional institutions to hospitals,from airports to hotels.These varied campuses enrich our lives.Figure 11 Integration of vario������us production and lifestyle aspectsBeautiful LifeIndividualFamilyGo
17�����1、vernmentCampusIndustryBusiness ProsperityFuture Intelligent Campus White Paper For Asia Pacific(2023)17What Is an Intelligent Campus?After extensive research and consultation with industry experts,Huawei defines intelligent campuses as follows:An Intelligent Campus is a powerful combination of peopl
172、e,devices,things,and events.It is a self-evolving system that provides proactive services,and acts as a sustainable space based on comprehensive sensing and ubiquitous connections powered by digital technologies.A powerful combination:A campus consist�������s of various elements,such as people,buildings,fa
173、cilities,and the environment.It also includes the activity patterns of people,the events that happened and are happening,the connections among people in communication and collaboration,operati�������on data,and value creation.On an intelligent campus,these elements are not separate from each other,but inte
174、ract with and affect each other.The collaboration,data exchange,and service integration among systems will generate new value.Figure 12 Definition of intelligent campusesDefinition2.1ICTs are key to making this happen.For instance,IoT devices like cameras and sensors can capture sta������tic and dynamic d
175、ata and changes in people,devices,things,and spaces on campus.They can create real-time and accurate digital representations of the campus in the dig�������ital space,enabling seaml������ess interconnection and collaboration.In the past,a single campus had limited space and resources,and could only offer one typ
176、e of service.Now,with digital platforms,we can combine resources from multiple systems for one service type,resourc����es from multiple service types in one campus,and resources from campuses and the society.This way,we can overcome the physical constraints of space and resources,build a virtual space w
177、�������ith all available resources,and provide inclusive intelligent services.A self-evolving system:An intelligent campus is built on the integration of data from people,devices,events,and things.With the help of digital technologies such as AI and cloud computing,intelligent campuses will become a new fo
178、rm of life.They will have the ability to think,communicate,learn,and accumu����late experiences and lessons from successes and failures.They will constantly self-correct and improve.Just like how living organis������ms have a breathing rhythm and a regular metabolism,an intelligent campus will have the abilit
179、y to learn,adapt and evolve by itself.Through the collaboration and deep integration of relevant systems,the campus will provide proactive management,care and services for the people,devices,events,and things within it.By recording the evolution process,it can analyze its evolut��������ion framework and pre
180、dict future development trends.It will also be able to adjust on-demand in response to unce��������rtainties and emergencies.Through flexible management,the campus will improve its risk response capability and achieve resource sharing and collaboration with social resources.A sustainable space:The existing
181、space and service capacities of campuses are constantly challenged by the development of social economy and the chang����es of human needs.This demands the intelligent campus to be a space that can sustain its development.An intelligent campus will be a ���green and efficient physical space that saves ener
182、gy and resources based on actual needs,avoiding waste.It will also reshape the digital space and extend the limited physical space to make information and data a factor of productivity.A sustainable space will enable business innovation,create infinite po�������ssibilities,and drive sustainable economic,ec
183、ological,and social development.An intelligent campus connects people and facilities,people and buildings,people and spaces,people and industries,and������ people and lifestyles.The ultimate goal of intelligent transformation is to accumulate intelligence for a self-learning,self-growing,and self-evo�����lving
184、 integrated system.Future Intelligent CampusA sustainable spaceA powerful combinationA self-evolving systemF�������uture Intelligent Campus White Paper For Asia Pacific(2023)18What Is an Intelligent Campus?Based on the definition,H��������uawei defines seven key features of intelligent campuses at three levels:fou
185、ndation,capability,and goal.The foundation should consist of comprehensive sensing and ubiquitous connectivity.Capability involves providing proactive services and intelligent evolution,while the goal is to ensure human-centered,green a�������nd efficient,and value-added������� services.First,the sensing neural a
186、nd connection network collects and adds the status and service data of people,devices,things,and events to the d�������ata processing platform.This platform integrates data���� and services for further analysis and decision-making.This is the foundation for intelligent campuses.Second,real-time analysis and de
187、cision-making are performed based on the aggrega�����ted data,and proactive services are provided.Over time,capabilities are built,adapted,and optimized to enable the continuous intelligent evolution of campuses.Finally,intelligent services are provided based on data accumulation to achieve the goal of a
188、n intelligent campus that is human-centered,green,efficient,and value-added.Features2.2Comprehensive sensing:Various sensors and IoT technol�����ogies form a sensing neural network which collects status and service data and perceives changes and requirements.Comprehensive sensing can help visualize resou
189、rces and statuses on the campus,which is the basis �������for campus management.For example,an intelligent campus can sense the location and distribution of people.It can then trigger alarms when big crowds gather or any devices such as an elevator control or access control system are faulty,so that we can
190、 clear the crowd and fix the devices in time.This ensures service continuity and enhance device lifespan.Ubiquitou��������s connectivity:The management,data,and production systems are connected in a wired and wireless way.This is the prerequisite for intelligent campus construction and the basis for campus
191、data aggregation.Ubiquitous connections enable on-de�������mand,seamless,secure,and plug-and-play connections between people,devices,things,and environments on campus.They break data and service silos,streamline vertical subsystems,and achieve service and data convergence.This paves the way for intelligenc
192、e.For example,air conditioners can be remotely turned on and adjusted based on personal preferences,which is a connection be�������tween people and things.Cameras can detect intruders and trigger the security system,which is a connection between things.Figure 13 Features of intelligent campusesGoalHuman-ce
193、nteredGreen&efficientValue-added servicesProactive servicesComprehensive sensingUbiquitous connectivityIntelligent evolutionIntell����igentCampusCapabilityFoundationFuture Intelligent Campus White Paper For Asia Paci����fic(2023)19What Is an Intelligent Campus?Proactive services:Intelligent campuses have th
194、e capabilities of proactive alarms,automatic control and adjustment,and decision-making assistance.Instead of responding passively to requirements,campuses can automatically control,adjust,and handle events,things,and environments,provide proactive services and care for people based on AI������-and data-d
195、riven decisions.For�������� example,before a meeting,video and voice devices turn on automatically and the meeting room will adjust its brightness,temperature,and humidity level.After the meeting,the devices automatically turn off and cleaning personnel are notified to clean the meeting room.Intelligent evo
196、lution:Campuses use AI and big data technologies to innovate and achieve self-learning,self-adaptation,and self-evolution.For instance,central air-conditioning water coolers can automatically adjust its start and stop time based on the outdoor enviro������nment,temperature,and indoor occupancy,so that it
197、operates at optimal efficiency,controls the temperature,saves energy,and adapts to user feedback and its own perception.Human-cente������red:This���� involves putting peoples needs and development at the core,so that people on campuses can work,study,and enjoy better living standards.Intelligent campus constr
198、uction must ensure peoples health,safety,comfort,convenience,social growth,and value realization.For example,in daily office work,cross-region collaboration is becoming more and more common.Our office devices need to support these needs better,such as being ������able to hold meetings anyt������ime and anywhere
199、,using electronic whiteboards,automatically recording discussions,and generating meeting minutes.Green and efficient:This involves using various technologies and eco-friendly materials to make campuses more intelligent and ef������ficient.Resources and space are allocated and shared based on demand and av
200、ailability.Resource consumption is ����monitored,analyzed,and minimized.The campus operates with minimal cost and environmental impact.For instance,the number of classrooms in use can be automatically adjusted according to the number of students and their preferences,saving energy and maximizing resourc
201、e utilization.Value-added services:Intelligence enables us to create and improve campus servic������es and deliver more value.We can also leverage data sharing and exchange to foster a win-win ecosystem,innovate serv�������ice models,and bring new benefits to campuses.For example,in the commercial space,we can t
202、ailor promotions and products to user consumption habits and preferences,achieve precise marketing,and boost profits.We require a comprehensive blueprint framework to set the vision and strategy for building intelligent campus����es and to guide the planning and deployment of different types of intellig
203、ent campuses.The framework is driven by a visionary approach,guided by business objectives,and supported by technical solutions.The vision describes our ideal state and direction,while the business objectives define the specific requirements for camp������us construction.The technical solutions are derive
204、d from the vision and objectives and are designed to serve bu����siness needs.Blueprint Framework2.3Future Intelligent Campus White Paper For Asia Pacific(2023)20What Is������ an Intelligent Campus?Figure 14 Intelligent campus blueprint frameworkVision:Building intelligent campuses is a transformative and rev
205、olutionary process.It requires a long-term vision that aligns with business strategies and needs,which guides blueprint planning and solution implementation.For instance,the vision of Bringing Digital to Every Campus for Universal Intelligen������ce inspires all stakeholders to work towards the goal of cr
206、eating intelligent campuses.Objectives:������The overall objectives of building intelligent campuses are to put people first,to promote green and sustainable development,��������and to provide value-added services.Basic features:The four basic features that define intelligent campuses are comprehensive sensing,ub
207、iquitou�������s connectivity,proactive services,and intelligent evolution.Converged space:An intelligent campus needs a converged space that combines the physical and the digital worlds of the campus.By using technologies such as sensing,connectivity,edge computing,cloud,and AI,dat������a and services are stream
208、lined to build a space that integrates people,devices,things,and environments.This space enables campus services and activities and supports campus intelligence.The blueprint framework is flexible,adaptable,and extensible.It can guide various cam�������puses towards intelligence and caters to different ind
209、ustries.1vision3objectives4 basicfeatures1convergedspaceBringing Digital to Every Campus for Universal Intelligence Human-centeredComprehensivesensingUbiquitousconnec����tivityProactiveservicesIntelligentevolutionGreen��� andefficientDigitaltwinsPhysical spaceConnectivityComputingCloudAIDigital spaceValue-
210、added servicesFuture Intelligent Campus White Paper For Asia Pacific(2023)21In�����telligent Campus System and Scenario OutlookIntelligent Campus System and Scenario OutlookThe construction of an intelligent campu�����s is a systematic project that focuses on the top-level design,construction,operations manag
211、ement,platform ecosystem,user experience,and cos����t-effectiveness of the campus.It develops a set of intelligent campus standards(such as infrastructure ������standards,management and service standards,construction and industry standards,and security and O&M standards),assurance mechanisms,and management sy
212、stems,integrating planning,investment,construction,management,and operations.������Intelligent Campus Construction System3.1Future Intelligent Campus White Paper For Asia Pacific(2023)22Intelligent Campus System and Scenario OutlookThe top-level design helps analyze business pain points and requirements,g
213、ain insight �����into the industry and technology trends,and plan the strategy,vision,and blueprint framework of the intelligent campus.As the top-level design is used to guide construction ������solutions,in the initial construction phase the integration of not only construction and operations but of multiple
214、 campus systems should be fully taken into consideration.Moreover,this solution provides guidance for a campuss operations ma������nagement and sustainable development,implements cross-domain and rights-based management�������,implements data sharing of various services,and integrates campus and social resources
215、,improving the connection and efficiency within building�������s,between buildings,and between campuses and cities.The intelligent campus features abundant services,diversified requirements,fast application it�������eration,and relies on an open and converged digital platform to accumulate digital assets and appl
216、ication services.In addition,it has stable major processes and flexible lower-level processes,and supports continuous iteration and smooth evolution in the f���uture.By providing intelligent applications and customized services to users,an optimal configuration is implemented for the entire lifecycle o
217、f the intelligent campus to reduce costs.Through the formulation of standardized design architecture,we aim to integrate emerging������ technologies such as 5G,cloud,and AI into the intelligent campus,achieving complete digitalization of the campus.�����This not only helps establish reference standards for int
218、elligent campus design and construction,but also eliminates duplicate construction and i�����nvestment waste caused by non-uniform standards.At the same time,we prioritize the establishment of standards and bring together diverse manufacturers ���������and ecosystem partners,spanning campus applications to equipm
219、ent subsystems,to enhance the unif�����ied development of the industry.By embracing the standards+platforms+ecosystems approach,we can drive significant advancements in intelligent campus construction and promote the standardization and sustainability of the intelligent campus industry.Figure 15 Intellig
220、ent campus constructio�����n and management systemUser experience Platform+ecosystem Top-level design Digital asset accumulation Smooth evolution of technical platfor�����ms Operations and management Construction Cost-effectiveness Full-lifecycle cost ROI Cross-domain and rights-based management Multi-service
221、 data sharing Integration o�������f campus and social resources Integrated construction and operations Multi-system convergence Intelligent ap������plications Personalized services Management system(quality,environment,and security management)Standards andspecificationsSupportingmechanismOrganizationRulesFunding
222、TalentPolicies&lawsStandard systemStrategy and blueprint Planning and design Industry planning,investment,and financing Future Intelligent Campus White Paper For Asia Pacific(2023)23Intelligent Campus System and Scenario OutlookThe ����Intelligent Campus Solution adopts the vertical decoupling and horiz
223、ontal conver������gence design principle and constructs a four-layer solution architecture featuring device,campus connectivity,campus hub,and campus services.The solut����ion is scalable,evolvable,and open,enabling rapid digital transformation of the campus.Based on cloud computing,the intelligent campus dig
224、ital platform integrates technologies such as computing,IoT,big data,AI,video cloud,positioning,and GIS to perform digital modeling and reconstruction �����on objects such as people,events,and things in the campus.Core campus services enable application development,support service innovation,improve deli
225、very efficiency,and lower the development threshold.In addition,campus service subsys������tems of different ecosys������tems can be connected to establish an intelligent campus where everything is connected,achieving overall intelligence in the campus.Intelligent Campus Solution Architecture3.2Figure 16 Intell
226、igent campus solution architectureThe intelligent campus solution and platform deliver the following features and benefits:Full connectivity:Streamline IT and OT to connect everything����.Full convergence:Provide data access,converged analysis,and governance services.Encapsulate multiple ICT,such as IoT
227、,video,big data,GIS,and communications.Full intelligence:Support AI services in all scenarios,such as text,video,voice,pe�����ople,vehicles,things,and events,and provide a full-stack training and inference service platform.Full openness:Open platform capabil������ities provide powerful application development
228、environment and services,helping customers and partners achieve agile ����innovation.Campus service Access control Elevator IdeaHub Turnstile Camera Campus hub.Energy storage Smart meter Solar PV A/C Lighting Campus connectivity Campus device IOC Intelligent office conference Access mgmt Campus digital
229、platform Campus IT edge Campus office network Campus production network Facility mgmt Ethernet POL Wi-Fi Ethernet POL Wi-Fi Smart security Energy efficiency mgmt Light security Statistical analysis Integrat����ed communications Public service Personnel service IoT service Process service Time and locati
230、on AI Security O&M Operations Integration service Development enablement Future Intelligent Campus White Paper For Asia Pacific(2023)24Intelligent Campus System and Scenario OutlookThe future intelligent campus will build a high-quality operation environme�����nt through technological innovation,improve
231、the investment attraction capability of campuses,and add value to a multitude of services.It will provide more secure and enjoyable activity space and environments to enrich peoples communication and life.It will als�������o provide more efficient and convenient collaboration capabilities,break the restric
232、tions of time and space,and redefine peoples working habits.And in this time of environmental awareness,intelligent campuses will create a green and sustainable environment,offer proactive services,and optimize resource allocation.3.3.1 Convenient and Efficient Collabo����rationWith the acceleration of
233、digital transformation in th��������e industry and the booming of the non-contact economy and remote services,everything is going cloud:cloud office,cloud conference,cloud school opening,cloud farmers market,cloud exhibition,cloud recruitment,cloud oral defense,and cloud competition and so on.This is gradua
234、lly opening up peoples minds,promoting alterative social interactions,and breaking the limitation of physical space and time in the campus.Breaking the bound����aries of time and space requires a more convenient and efficient online collaboration style for campus management,production,operations,and com
235、munication.More exten������sive connections between people,between people and things,and between people and events are required to enrich everyones communication and life.New technologies such as 5G,AI,VR,cloud,and big data will redefine peoples work and collaboration methods and are widely used in fields
236、 such as remote office,remote maintenance,remote education and training,and telemedicine,allowing greater productivity and an uninhibited,yet simpler and safer lifestyle.Remote����� office:Remote work cuts through geographical barriers and becoming a significant trend.Thanks to digital technologies,the r
237、emote work experience is constantly improving.The goal of remote communication is to achieve the same effect as face-to-face communication,therefore,the integrity and a����uthenticity of information transmission must be ensured.Communication within a campus and between campuses will be more convenient a
238、nd efficient.Take the remote conference as an example.The cloud-edge synergy can be used to eliminate the limitations of time,space,and hardware devices in the campus,enabling the remote ��������conference to achieve the same effect as a face-to-face c����onference.Before a meeting,employees can access the meet
239、i������ng anytime and anywhere using any device.Identity recognition is used to implement automatic sign-in.During the meeting,audio and video files can be shared through both wired and wireless projection,and participants can leave comments on ��������the electronic whiteboard using any specific channel.Electron
240、ic nameplates facilitate introductions a�����mong the participants.With voice tracking,sound source detection,and positioning,cl����ose-up images of speakers are automatically displayed to ensure the speaker is always at the center of attention.After the meeting has come to an end,meeting minutes are automat
241、ically generated through voice and text recognition,�������and can be obtained in a highly efficient and simple way by scanning the QR code.Remote maintenance:In the 5G era,all things are connected so that the vi����rtual world can synchronously sense the real-time changes of the real world.The virtual and rea
242、l world will be fully integrated,and the experience is no longer limited by time and space,achieving a sense of always �����on-site.Take for instance a manufacturing enterprises campus,where AR technology can enable rem�������ote experts to perform operations online,providing a virtual on-site experience that i
243、mproves personnel work efficiency and device maintenance.This facilitates more accurate collaboration between machines and people.This form of remote maintenanc����e can also be widely used in the campuses of high-risk industries such as mining,smelting,and chemical engineer��������ing.Distance education and tr
244、aining:Education and training in the future will transcend the physica�����l space limitations of schools Intelligent Campus Scenario Outlook3.3Future Intelligent Campus White Paper For Asia Pacific(2023)25Intelligent Campus System and Scenario Outlookand families,breaking down the traditional brick and
245、mortar barri������er and enabling learning to take place anytime and anywhere.Based on the transmission of high-quality networks,HD videos,and VR,distance education will benefit everyone.Children in remote mountainous areas can also gain access to the high-quality educational resources of large cities.The
246、 students/trainees will use 5G+AR terminals����� �����to communicate with experts in real-time through two-way audio and video.The teachers provide real-time operation training for trainees,and can save records and trace the training process,improving the overall training efficiency.Telemedicine:As medical co
247、nsultation,diagnosis,and treatment increasingly transcend the physical campuses of hospitals,telemedicine is fast becoming a reality.Medica������l images and videos have high requirements on network service quality,and 5G networks feature a high rate,large bandwidth,and low latency,effectively ensuring th
248、e real-time,stable,reliable,an�����d secure performance of telemedicine.Remote AR surgery guidance,VR surgery demonstration,HD surgery live broadcast,and real-time consultation are used to implement cross-space capability transfer,enabling common medical personnel to quickly obtain years of medical exper
249、ience from senior experts.AI technologies are������ used to implement ultrasound diagnosis by robots and real-time assistance of AI ultrasound images,improving medical service efficiency.3.3.2 Secure and Pleasant SpaceA campus forms a space for productivity,daily life activities and socializing.Each perso
250、n is both a creator and a user of the space ���������inside a campus,and they are jointly combined to create a secure and pleasant space.Building a convenient and secure physical campus space with digital technologies Convenient access:By leveraging identification technology,we aim to create an exceptionally
251、 seamless and convenient access experience that fosters a sense of freedom,safety,and ease of movement across the campus.The access information is connected to the personnel management system to automatically record the on-and of�������f-duty information of employees(automatic clock-in/out).Authentication
252、management enables visitors to pass efficiently,while at the same time,we can provide services such as no-entr������y reminders and intrusion alarms.Security management:We leverage 5G techno����logies,AR,and HD video,and use drones and robots for security management to improve the campus security level and su
253、pport all-day and all-round secur������ity assurance.Security personnel at the campus entrance and exit are equipped with 5G-based AR glasses to help quickly identify visitors and prevent dangerous and blacklisted personnel from entering the campus.Security cameras �������are deployed on the high points of build
254、ings in the campus to provide a clear and uninterrupted view.The combination of video����� backhaul by drones and VR glasses enables security p�����ersonnel to remotely track and handle emergencies without blind spots.Robots are used in security patrol to implement round-the-clock campus security.5G features
255、high bandwidth,low latency,and wide connections,which enable HD videos uploaded by high-altitude cameras to clearly show details such as peoples features and license ������plates within several kilometers.In ad����dition,the cameras can process burst information about a large number of people on a big campus,
256、greatly improving the campus securit����y assurance capability.Emergency management:With the support of technologies such as 5G,AI,and big data,campus space management can be more refined and adaptable when a major event occurs.Campus space can be quickly closed or orderly opened as required.For example
257、,with the help of new technologies,cloud-edge synergy can be used to identify the status of campus personnel(such as body temperature),crowd gathering,high-risk����� individuals,and people flow statistics.The 5G cloud brain and monitoring platform are used for operations management,which ensures the heal
258、th and safety of personnel as well as the beautiful and comfortable physical env���������ironment.The silent operational state of this technology ensures that there are no interruptions to the normal work and life of individuals inside the campus.Integrating physical and digital space to deliver convenient a
259、nd comfortable servicesWe connect the physical world to the digital world through GIS,BIM,and AR maps to build a digital twin space experience.Future Intelli������gent Campus White Paper For Asia Pacific(2023)26Intelligent Campus System and Scenario Outlook3.3.3 Environment for Green DevelopmentPeople-ori
260、ented services for convenient livingTechnologies such as IoT,5G,and AI are used to �����enable the automatic detection of people,devices,thi������ngs,and events,as well as interconnection and system linkage capabilities.The solution implements cross-system intelligent linkage through sensors,perimeters,monitor
261、ing devices,turnstiles,access control devices,and intelligent devices in the campus.Based on the status of people,devices,things,and events,historical data,and peoples usage���� habits,the solution analyzes and predicts the ambient temperature and energy consumption,and provides optimization suggestions
262、.In th������is way,active services of devices and systems are implemented.Scenarios such as navigation,information release,recommendation,guide explanation,and space visualization will become more�� user-friendly,providing an optimal immersive experience that is similar to appreciating a masterpiece.This so
263、lution is applicable to public places that have high requirements on navigation,information release,and entertainment,such as scenic spots,museums,exhibition halls,shopping malls,communities,�������airports,exhibition centers,and hospitals.In addition,this solution is also applicable to industries that hav
264、e high requirements on space visualization,such as building sales,building planning and design,medical teaching,and automobile manufacturing,which have high co����sts,risks,and difficult onsite operations.Enriching historical and cultural experience with technologyFor effective interaction between peopl
265、e,things,and the environment,the intelligent transformation of campus facilities is essential.For example,an intelligent bench is equipped with a solar power charging board and environment sensors to provide the charging function and monitoring of the surroundings in addition to being����� a practical pl
266、ace for resting.The intelligent lamp pole uses a��������n integrated de����sign and can be used as a carrier for 5G devices,cameras,environment sensors,electronic information screens,broadcasts,and emergency rescue buttons.It also provides services such as Wi-Fi coverage,HD video security backhaul,environment a
267、wareness,information release,broadcast notification,an�����d location positioning.AR recognition and hybrid reality technologies are used to identify physical entities such as buildings,cultural relics,and sculptures,provide proactive digital information display,improve the diversity and timeliness of in
268、formation releas��������e,and reduce the impact of public space billboards and information release columns on the landscape.The interaction between human and spatial-temporal memory may become a reality.Such technologies are based on 4D imaging,AR,VR,and MR,and historical elements are made into a digital im
269、age(text,im������age,film,sound,etc.),with the digital image seamlessly superimposed with reality.We can retain the historical lands��������cape of the space,show the historical changes,and pass on the cultural and historical memory so that people can return to the past.In campuses such as scenic spots and cultur
270、al museums,this technology can be used to create immersive historical displays and interactive cultural activities to enable individuals to experience real history,as if they were there.Figure 17 Pr���������oactive campus services based on AI+IoT+big dataThe fresh air,light,air conditioner,temperature,humidi
271、ty,and devices are automatically adjusted based on the crowd������� density and user habits.Automatic alarm and predictive&proactive maintenance suggestions are implemented for equipment and facility issues and faults.Implements real-time monitoring and diagnosis of energy consumption and load,and proactiv
272、e push of ����optimization suggestions.Future Intelligent Campus White Paper For Asia Pacific(2023)27Intelligent Campus System and Scenario OutlookEnergy saving and intelligent optimizationAt present,energy efficiency management is������ facing numerous problems,such as unrefined energy efficiency management
273、and inaccurate usage prediction,which leads to excessive energy usage and waste.Energy-related systems run independently and cannot be centrally managed and controlled,with a lack of energy saving analysis methods and professional����� energy efficiency management.There are no effective energ���������y saving met
274、hods,and real-time management cannot be implemented.This results in a great waste of ene������rgy and goes against the principle of a low carbon footprint,energy conservation,and environmental protection,which imposes great pressure on the campus environment and prevents its sustainable development.With n
275、ew ICT such as IoT,AI,and big data,the energy efficiency management system can detect energy consumption,collect usage data of various energy sources(water,electricity,gas,and heating),and establish multidimensional analysis models such as energy scheduling,device runni�����ng,environment monitoring,and
276、crowd density.Based on the big data intelligent analysis and diagnosis model and algorithm of the intelligent campus digital platform,the traditional extensive power supp���������ly method is altered.For example,compared with the rigid and extensive management method of scheduled startup and shutdown of trad
277、itional cooling stations,the dynamic optimization solution for campus chilling stations uses data such as the running status of each phase on the big data platform,environment changes,and campus manpower distribution,and combines AI technologies to implement intelligent and autom�����atic control of cool
278、ing stations and precise scheduling of chillers in the optimal performance coefficient range,achieving precise power supply and reducing waste.The solution can reduce the energy consumption cost of the campus by about 15%.In addition,with the help o�����f big data and IoT technologies,the energy efficien
279、cy management system can proactively det������ect the distribution and changes of ������personnel in offices or meeting rooms,dynamically control end air conditioners and lighting in real time,and build an intelligent mode with automatic light control based on peoples presence.In this way,a demand-driven tailor
280、ed power supply is established to provide comfortable space experience,precise power consumption���� prediction,and efficient energy efficiency management,achieving a sustainable development space that is green,low-carbon,energy-saving,and environment-friendly.Device sensing and automatic maintenanceIn
281、terms of device management,IoT and big data technologies are used to implement IoT access and interconnectio��������n of a wide range of devices and systems in the campus,monitor and comprehensively detect device running status in real-time,and improve device running efficiency.Statistics are collected and
282、big data is analyzed ��������for device running,device faults are diagnosed,device health is evaluated,and maintenance policies can be adjusted in real-time to prolong the service life of the device.In addition,these technologies provide real-time,online,on-demand,intelligent,and high-experience device main
283、tenance mode and associate with the GIS and work order system to implement complete device fault alarm and service ticket processing,redu������cing the device fault response time and improving management efficiency.Cloud-based and service-oriented devi��������ce management will become a trend,greatly shortening t
284、he �����period of device installation and deployment and improving the convenience and efficiency of device operations and O&M.For example,device services such as intelligent lighting,intelligent turnstiles,and intelligent access control are packaged into a standard equipment service package and provided
285、 as a standard service.Device services can be subscribed online and enabled in a self-service manner.Physical hardware �������devices support onsite plug-and-play and can be taken online by scanning barcodes.The cloud-based digital twin service is used to configure and orchestrate����� services to implement clo
286、ud-based configuration,remote service delivery,and remote upgrade and maint�������enance on the cloud,greatly facilitating device installation and management.Future Intelligent Campus White Paper For Asia Pacific(2023)28Intelligent Campus System and Scenario OutlookThe digital transformation of various ind
287、ustries is accelerating,and intelligent campus construction is booming.This not only presents new development opportunities for millions of enterprises and organizations,but al����so poses more and higher requirements on the digital infrastructure of device,pipe,and cloud.Adhering to the platform+ecosys
288、tem strategy,Huawei builds an open,flexible,easy-to-use,and secure platform,respects industry rules,proactively integrates itself into the industry,stays in close contact ��������with partners,establishes win-win partnerships,and jointly expands industry markets.Huawei and its partners support each other,co
289、mplementing each others strengths,fostering collaboration,and delivering value for customers.We share opportunities,create value,shoulder responsibiliti�������es,and achieve mutually beneficial outcomes.We collaborate with partners to es���������tablish innovative cooperation alliances that drive industry prosperit
290、y,support our customers business success,and contribute to industry-wide digi�����tal transformation.The construction of intelligent campuses requires the cooperation of all parties.In Huaweis case,we will collaborate with standard organizations to develop intelligent campus standards and specifications,
291、build a campus standard system,and prom������ote the development of industry standards.We will also deepen our cooperation with consulting and planning partners to describe the vision and bl������ueprint of the intelligent campus through top-level design,and work with solution design partners to refine the solu
292、tion architecture and technical functions to support the implementation of intelligent campuses.In addition,Huawei will work with partners in the weak-current systems of termin�����als to expand and deepen connections based on its accumulated experience in ICT such as network connection and digital platf
293、orms,implementing automatic authentication,automatic access,and plug-and-play of required data for weak-current systems in campuses.Huawei will also establish a solid foundation for building intelligent campuses where all things are connected,and team up with applicat������ion development partners and cus
294、tomers to continuously innovate based on the digital platform,provide various industry applications,and continuous��������ly create value for customers.Intelligent Campus Ecosystem3.4Figure 18 Intelligent campus ecosystemICT(Digital platform)Hospital campusIndustrial campusSales PartnersBusiness operations
295、PartnersEcosystem partnersConsulting and Planning PartnersTalent alliance PartnersSolution development Partners Investment and Financing PartnersService PartnersIndustry PartnersCloudComputingAIConn������ectivityCommercial real estateUniversity campusOffice campusPort ������campusFuture Intelligent Campus White
296、 Paper For Asia Pacific(2023)29Intelligent Campus System and Scenario OutlookIn recent years,the construction of intelligent campuses has been conducted on a large scale.Driven by new policies,technologies,and requirements,the digital transformation of campuses has now entered a crit������ical stage,spann
297、ing from functions to emotions,from s�������ingle-point intelligence to all-scenario����� intelligence,and from traditional operations to digital operations.As both the external and internal environments of intelligent campuses undergo complex and profound changes,a series of new demands and challenges arise in
298、 the planning,co��������nstruction,and operations of intelligent campuses.Intelligent planning needs to factor in numerous internal and external elements,posing higher requirements on planning capabilitiesTo ensure that smart campus planning is scientific,systematic,and forward-looking,it must be based on a
299、 thorough understanding of industry development,technical trends,and user and role-specific intelligent requirements.This approach ensures the campus remains up-to-date and relevant.The future of digitalization will greatly influence users consumption behavior and living habit�������s.The rapid development
300、 of emerging technologies,such as 5G+smart educat������ion,5G+smart healthcare,5G+smart venues,AI+access,and AI+security,will increasingly impact campus services.In an era where requirements and technologies are constantly changing,it is crucial to comprehend the pain points and requirements of various pa
301、rties involved in the campus,including government/regulatory departments,B-end and C-end users,and campus operation/management personnel.By effectively integrating emerging technologies with these pai�������n points and requirements,we can deve�����lop intelligent scenario designs.High standards and forward-loo
302、king vision are required to plan����� the infrastructure bearing capacity of the campus and lay a solid foundation for future development.This sets a higher bar for planning capabilities.Intelligent construction features difficult project collaboration and implementation,posing new challenges to the capa
303、bilities of the main construction party.Intelligent campus construction is a complex and systematic project,involving a wide construction scope,multiple construction parties,and var�������ious management tasks.As project implementa������tion grows increasingly complex,the main construction partys capabilities wi
304、ll face new������� challenge������s.Intelligent campus construction demands personnel with high technical skills and management capabilities,in addition to traditional project management,fund management,and organization and coordination capabilities.These requirements include understanding construction solutions
305、,technology convergence at multiple levels,cross-service data sharing,application system service combinations,and collaborative managemen�����t.Intelligent campus construction is a complex,large-scale integration project that involves device,data,application,scenario,and service integration.These tasks d
306、irectly impact the projects construction period,cost,and quality,ult�����imately determining the proje������cts outcome.Transformation of digital operation concepts and mastery of tools and methods pose higher requirements on operation capabilities.The intelligent upgrade of campuses is driving the digital tra
307、nsformation of campus operations.To�������day,operation services are automatically delivered on demand and no longer center around management and control.Data analysis,rather than subjective judgments,informs decision-making.These changes demand higher operation capabilities.We must actively embrace digita
308、lization in our operation concepts,challenging traditional ideas and models through data.We need to become accustomed to using data for decision-making,man������agement,and innovation.The ������campuss operation management system must align with the content and scenario of intelligent construction.The actual ef
309、fects and benefits of intelligent scenarios are reflected in real-time through operation indicators,improving the management and service level of the campus through digital operatio������ns.This increases the operational value and enhances user satisfaction.Planning-Construction-Operations Integrat�����ed Meth
310、odology3.5Future Intelligent Campus White Paper For Asia Pacific(2023)30Intelligent Campus System and Scenario OutlookDuring intel������ligent campus construction,the asymmetry of construction methods and information can make the proje���ct deviate from the initial vision.To ensure systematic planning,orderl
311、y construction,step-by-step implementation,and value-based operations of the intelligent campus,our goal is to achieve pro������ject success and maximize benefits throughout the life cycle.By using a unified blueprint,we can avoid unnecessary social costs and resource wastage in the process.Thus,planning,
312、construction,and operation of the intelligent campus are interdependent elements that complement each other.Intelligent campus planning(specifically,the top-level design of the campus):The process of moving from uncertainty to certainty and from abstract to concrete.The top-level ����design of the intel
313、ligent campus should prioritize business as the core and technology as the means,adopting a�����n overall planning approach.Top-level planning clarifies the construction objectives of the intelligent campus.As the general blueprint of construction,the top-level design unifies the thinking of all business
314、 departments and balances resources of all parties involved.During the planning phase,a variety of ����factors must be considered,including user requirements,business value,technology implementation,operation requirements,implementation pace,and resource investment.Intelligent campus construction:The in
315、telligent campus engineering system is diverse and integrated.During the construction phase,we should follow the plan and design for future operations after project completion.The operator should participate in the construction process,r������aise operation requirements for the construction solution,and a
316、ssume operation capabilities.Intelligent campus operation:The main path to realizing value.Digital operations reduce costs,improve efficiency,and promote service innovation.In addition,we need to identify pain points and opportunit��������������ies during operation,and provide continuous iteration and service opt
317、imization f�������or the campus.The three elements of the������ planning-construction-operations methodology support each other and form an organic cycle.In the following three chapters,we will discuss planning,construction,and operations in detail based on Huaweis intelligent campus practices and project delive
318、ry experience.Figure 19 Planning-construction-operations integrated methodologyPlan���ningRealize valueDo things rightIntelligent CampusDo the right thingsOperationsCo������nstructionImplement the planning content during operationsConsider construction and operations during planningOperator participates in t
319、he construction processFuture Intelligent Campus White Paper For Asia Pacific(2023)31Intelligent Campus Top-Level DesignIntelligent Ca���mpus Top-Level DesignTop-level design is an engineering term and refers to the overall planning of all aspects,layers,and elements for a task or project.By using syst
320、ematic met���hodology for a specific������ design object from a global perspective,top-level design can centralize effective resources and efficiently and quickly achieve objectives.It is a design method that simplifies,details,and stylizes complex objects and seeks solutions at the top level.The intelligent
321、 campus top-level design applies the top-level design approaches and concepts to c������ampus service development via digital technologies to create blueprints and design scenarios through elements,business forms,layers,roles,and influencing factors of the campus.����Driven by an intelligent vision,it aims to
322、 meet user requi��������rements and create business value.The intelligent campus ������top-level design has three main features.First,as a top-down design,it is decisive and is a rational improvement of practice experience and perceptual knowledge.Based on the campus service development and core user requirements
323、,the top-level design specifies the future-oriented development vision and objectives of the campus.All s����olutions and resources must be aligned with such objectives.Second,digit�����al technology enablement.Digital technologies form the foundation of an intelligent campus.The digital platform integrates
324、innovative ICTs to support the rapid development and flexible deployment of applications upwards,enabling agile innovation of services in various indus�������tries.Downwards,it achieves cloud-pipe-device synergy and optimization through Future Intelligent Campus White Paper For Asia Pacific(2023)32Intellig
325、ent Campus Top-Level Designubiquitous connectivity,thus connecting physical and digital worlds as well as supporting �������intelligent campus service experience and digital operations.Third,practical operability.Top-level design highlights object-oriented scenario design,which requires a close combination
326、 of both theories and practices.All elements of the campus must be strictly aligned with the vision and objectives,and therefore,the key to success is to draw a practical and feasible blueprint that is somewhere between the vis�����ion and reality,and realize the blueprint through practices.As an old say
327、in������g goes,preparedness ensures success,while unpreparedness spells failure.The intelligent campus top-level design is the prerequisite for campus informatization and intelligent construction.It represents the intelligent development vision over the next 5 to 10 years,and is the action program and ope
328、rational plan.The evolution,implementation,and maturity of technologies have turned the intelligent campus from a concept into a reality,and top-level design guides intelligent campus construction.The advanced development concepts and consistent initiative syste���m are critical to the construction and
329、 operatio�������ns of intelligent campuses.As such,this chapter sheds light on the benefits and necessity of the intelligent campus top-level design,specifies the scientific planning methods,and resolves any misunderstandings.Figure 20 Three core issues of top-level designIntelligent campus construction is
330、 a complex systematic project.It simplifies,details,and stylizes complex objects,transforming uncertainties into certainties.The entire process involves multi-layer technology convergence,service association,management linkage,and implementation collaboration.T�������he core value of top-level design is to
331、 help campus owners evaluate and clarify the three core issues of project construction including vision,objectives,and blueprint,s�������ervice design������ and implementation strategies,and industry insights and customer requirements based on the actual campus situation and service development requirements.Top-
332、level design coordinates the overall intelligent campus layout,promotes construction of the campus and subsequent operations from top to bottom,and ultimately helps intelligent campuses embark on a journey �������to the top.Benefits and Necessity of Top-Level Design4.1Where are we going?Vision,objectives,a
333、nd blueprintHow can we get there?Service design and implementation strategiesWhere are we now?Industry insights and customer requirementsFuture Intelligent Campus White Paper For Asia Pacific(2023)33Intelligent Campus Top-Level �������DesignHow can we accurately and comprehensively gain insights into the intelligent requirements?(Where are we now?)The essence of a campus is to serve people.However,due to
sgpjbg002
工作日 8:30 - 17:30
报告分类
