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1、FEATUREThe future of intelligence analysisA task-level view of the impact of artificial intelligence on intel analysisKwasi Mitchell,Joe Mariani,Adam Routh,Akash Keyal,and Alex MirkowTHE DELOITTE CENTER FOR GOVERNMENT INSIGHTS2The future is already hereIN THE LAST decade,artificial intelligence(AI)h
2、as progressed from nearscience fiction to common reality across a range of business applications.In intelligence analysis,AI is already being deployed to label imagery and sort through vast troves of data,helping humans see the signal in the noise.1 But what the intelligence community(IC)is now doin
3、g with AI is only a glimpse of what is to come.These early applications point to a future in which smartly deployed AI will supercharge analysts ability to extract value from information.The adoption of AI has been driven not only by increased computational power and new algorithms but also the expl
4、osion of data now available.By 2020,the World Economic Forum expects there to be 40 times more bytes of digital data than there are stars in the observable universe.2 For intelligence analysts,that proliferation of data means surefire information overload.Human analysts simply cannot cope with that
5、much data.They need help.Intelligence leaders know that AI can help cope with this data deluge but they may also wonder what impact AI will have on their work and workforce.According to surveys of private sector companies,there is a significant gap between the introduction of AI and understanding it
6、s impact.Nearly 20 percent of workers report experiencing a change in roles,tasks,or ways of working as a result of implementing AI,yet nearly 50 percent of companies have not measured how workers are being impacted by AI implementation.3 This article begins to tackle those questions,offering a task
7、s-level look at how AI may change work for intel analysts.It will also offer ideas for organizations seeking to speed adoption rates and move from pilots to full scale.AI is already here;lets see how it will shape the future of intelligence analysis.AI in the intel cycleIntelligence flows through a
8、five-step“cycle”carried out by specialists,analysts,and management across the IC:planning and direction;collection;processing;analysis and production;and dissemination(figure 2).The value of outputs throughout the cycle,including the finished intelligence that analysts put into the hands of decision
9、-makers,is shaped to an important degree by the technology and processes used,including those that leverage AI.Technologies such as unmanned aerial systems,remote sensors,advanced reconnaissance airplanes,the internet,computers,and other systems have supercharged the collection process to such an ex
10、tent that analysts often have more data than they can process.4 Complicating matters,the data collected often resides in different systems and comes in different mediums,requiring analysts to spend time piecing together related informationor fusing databefore deeper analysis can begin.How will artif
11、icial intelligence impact intel analysis and,specifically,the intelligence community workforce?Learn what organizations can do to integrate AI most effectively and play to the strengths of humans and machines.The future of intelligence analysis:A task-level view of the impact of artificial intellige
12、nce on intel analysis3WHAT DO WE MEAN BY AI?The term“artificial intelligence”can mean a huge variety of things depending on the context.To help leaders understand such a wide landscape,it is helpful to distinguish between the types of model classes of AI,and the applications of AI.The first are the
13、classifications based on how AI works;the second is based on what tasks AI is set to do.Source:Deloitte analysis.Deloitte Insights| enginesRules-based software,often in the form of if-then statements,that automate predefined processes.Intelligent rules enginesRules-based software,often in the form o
14、f if-then statements,that automate predefined processes and can learn and adapt.Machine learningA set of statistical techniques that automate analytical model-building using algorithms that learn from data without explicit programming.Deep learningA more sophisticated form of machine learning that d
15、evelops multiple hidden layers of analysis to make predictions.PROGRAMS THAT ALTER THEMSELVESCognitive languageA set of statistical techniques that enable the analysis,understanding,and generation of human languages to facilitate interfacing with machines.Computer visionAutomatic extraction,analysis
16、,and understanding of information from a single image or a sequence of images that models,replicates,and surpasses human vision.RPASoftware that performs routine processes by mimicking how people interact with applications through a user interface and by following simple rules to make decisions.Pred
17、ictive analyticsAnalyzes data by combining model classes,especially machine learning,to predict outcomes and understand key variables.Technique examplesPotential uses Natural language processing (NLP)Natural language generation (NLG)Semantic computing Speech recognition Speech synthesis Image recogn
18、ition Video analysis Handwriting recognition Voice recognition Optical character recognition Process automation and configuration Graphical user interface(GUI)automation Advanced decision systems Predictive statistical models Nave Bayes and other probabilistic models Neural networks Evaluating human
19、 source reliability given other forms of reporting Analyzing the syntax of social media or other posts to identify outliers that may be adversary communications Identifying and tracking vehicles,objects,and people in photos or videos Identifying objects and linking to appropriate groups and individu
20、als Automating mission-related and back-office reporting tasks Filling in common forms Automating platform scheduling/deconfliction for collection management Analyzing adversary courses of action Modeling adversary progress on nuclear or other technology development Providing leaders with real-time
21、decision supportFIGURE 1Artificial intelligence:Model classes and sample applicationsThe future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis4Access to more data should be a good thing.But without the ability to fuse and process it,it can inund
22、ate analysts with mountains of incoherent data to piece together.The director of the National Geospatial Intelligence Agency said that if trends hold,intelligence organizations could soon need more than 8 million imagery analysts alone,which is more than five times the total number of people with to
23、p secret clearances in all of government.5 In the modern digitized age,where success in warfare depends on a nations ability to analyze information faster and more accurately than adversaries,data cannot go unanalyzed.6 But given the pace at which humans operate,there simply isnt enough time to make
24、 sense of all the data and perform the other necessary intelligence cycle tasks.AI can provide much-needed support.Intelligence agencies are already using AIs power to sort through volumes of data to pull out critical“knowns”for further analysis.For example,agencies have used AI to automatically ide
25、ntify and label patterns of vehicles to identify SA-21 surface-to-air missile batteries or sift through millions of financial transactions to identify patterns consistent with illicit weapons smuggling.Similarly,the Joint Artificial Intelligence Center(the Department of Defenses focal point for AI)i
26、s already working to develop products across“operations intelligence fusion,joint all-domain command and control,accelerated sensor-to-shooter timelines,autonomous and swarming systems,target development,and operations center workflows.”Our analysis suggests AI operating in these capacities can save
27、 analysts time and enhance output.While exact time savings will depend on the type of work performed,an all source analyst who has the support of AI-enabled systems could save as much as 364 hours or more than 45 working The future of intelligence analysis:A task-level view of the impact of artifici
28、al intelligence on intel analysis5days a year(figure 3).These savings can free up analysts to devote more time to higher-priority tasks or build skills through additional training,among other activities.(For more information on our methodology,see Appendix.)The real value of AIThe benefits of AI,how
29、ever,can go far beyond time savings.After all,intelligence work never ends;there is always another problem that demands attention.So saving time with AI will not reduce the workforce or trim intelligence budgets.Rather,the greater value of AI comes from what might be termed an“automation dividend”:t
30、he better ways analysts can use their time after these technologies lighten their workload.Indeed,research on industries from banking to logistics shows that the greatest benefit of automation comes from when human workers use technology to“move up the value chain.”7 Put another way,they spend more
31、time performing tasks that have greater benefit to the organization and/or customer.For example,when automation freed supply chain workers from tasks such as measuring stock or filling in order forms,they could redeploy that time to create new value by matching specific customer needs to supplier ca
32、pabilities.8 For intelligence analysis,leveraging AI to instantly pull otherwise hard-to-spot indications and warning(I&W)leads out of messy data could allow human analysts to do the higher-value work of determining if a given I&W lead represents a valid threat.Source:Deloitte analysis.Deloitte Insi
33、ghts| hours or 45.5 working days saved for each analystAll sourceanalystOuter circle:Pre-AI Inner circle:Post-AI13.5%8.9%10.8%6.7%27.5%36.6%20.0%10.2%10.1%17.3%7.7%13.2%FIGURE 3Potential additional work time available to all-source analyst due to at-scale adoption of AIPlanning and direction Collect
34、ion Processing and exploitation Analysis Dissemination Other and administration tasks Time saved(17.5%of pre-AI total)The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis6There are two main ways to create additional value with extra time:An
35、alysts can spend more time on higher-value tasks that they already do,or they can add new high-value tasks.DO MORE:HUMANS FOCUS ON HUMAN TASKSBefore these benefits can be realized,however,intelligence organizations must determine which are the highest-value tasks,and therefore,the best-suited for hu
36、man workers to perform.To start,lets compare humans with computers or other machines.The key is in understanding the difference between specialized intelligence and general intelligence.Even a simple pocket calculator can outperform the best math whiz at some tasks.But while it is fast and accurate,
37、arithmetic is the only task the pocket calculator can perform.It has a very narrow,specialized intelligence.Humans,on the other hand,tend to outperform even the most advanced computers in general intelligence.As MIT professor Thomas Malone explains,“Even a five-year-old child has more general intell
38、igence than the most advanced computer programs today.A child can carry on a much more sensible conversation about a much wider range of topics than any computer program today,and operate more effectively in an unpredictable physical environment.”9 So while machines are better than humans at handlin
39、g large volumes of data or working to extreme levels of precision,humans are better at tasks that change dramatically with context or those that involve high levels of interpersonal interaction.Teamed together,human workers and AI tools can each play to their strengths;AI tackles the huge volumes of
40、 data and humans deal with the highly variable tasks.Inside intelligence organizations,human analysts can move up the value chain by offloading many of their data-heavy processing-and exploitation-related tasks onto machines.They can then put more of their own energy into the analysis,planning,and d
41、irection tasks that often require more creativity,communication,and collaboration with colleagues and decision-makers.Our model(see“Appendix:Methodology”)makes similar predictions for intel analysts.With AI taking on tasks such as data cleaning,labeling,or pattern recognition,all source analysts can
42、 spend more time on context-sensitive or uniquely human tasks.As a result,future analysts will likely spend more time collaborating with othersup to 58 percent more than they do today.How could greater collaboration play out across the intel cycle?As an example,in the dissemination stage,analysts pr
43、esent information to decision-makers,collaborating with them so they can make the best decisions.If AI could take on much of the prep work in assembling sources,creating graphics,or even drafting reports,human analysts could focus on the needs of the decision-maker and the implications of the situat
44、ion.In this scenario,an analyst would simply provide AI with the topic of an upcoming briefing or finished product.From there,AI could automatically generate a list of relevant reports to read through,preselect maps or imagery,label the relevant features for a briefing,and even write short summaries
45、 of background events.A similar shift is already taking place in journalism.AI is being used to automatically generate simple Intelligence organizations must determine which are the highest-value tasks,and therefore,the one best-suited for human workers to perform.The future of intelligence analysis
46、:A task-level view of the impact of artificial intelligence on intel analysis7news stories.10 In its first year,the Washington Posts bot published 850 articles on everything from the Olympics to elections.By automating detail-oriented tasks,such as writing corporate earnings reports,the AP found tha
47、t use of bots reduced journalists workload by 20 percent,allowing them to focus on reducing errors and spotting larger trends.11 As a result,even as output increased,there were fewer errors in corporate earnings stories.Intel analysts could benefit from a similar arrangement:AI could generate routin
48、e intelligence summaries or daily reports,allowing analysts to focus on synthesizing those reports into larger trends or customizing reports to the preferences of specific decision-makers.DO SOMETHING NEW:EXPLORE THE POSSIBILITIESAs we have all experienced,new technologies can come with new tasks.So
49、 AI most likely will also introduce entirely new tasks for workers to handle.Using the adoption of other advanced technologies as a guide,we expect many of the new tasks will likely fall into one of these three categories:Delivering new models.Intelligence is fundamentally about using information to
50、 reduce uncertainty for national leaders.The rapid pace of modern decision-making is among the biggest challenges leaders face.12 AI can add value by helping provide new ways to more quickly and effectively deliver information to decision-makers.One such idea is a shift toward real-time decision sup
51、port.In the past,complex models of adversary behavior would take months to create and update,leading to a long cycle of formal intelligence products.Today,using AI and big data,analysis can take place much faster,often just short of real time.This is now happening in auto racing,where Formula One ra
52、ce teams adjust strategy models based on thousands of data points as cars are racing around the track.13 A sudden shift in weather or an unexpected pit stop from a rival can trigger changes to a teams plan in seconds.Following the Formula One racing example,intelligence analysts with AI-infused mode
53、ls that could simulate even complex scenarios quickly would be able to answer questions from decision-makers as they ask them rather than waiting for finished intel products.Our model suggests that analysts could spend up to 39 percent more time advising decision-makers in this manner following the
54、adoption of AI at scale(figure 3).Developing people.A motivated and informed workforce is a more productive workforce.Tasks that improve employees well-being or performance are likely to create significant new value for any organization.In intelligence,to perform at their best,analysts need opportun
55、ities to learn and grow.They need to keep abreast of new technologies,new services,and new happenings across the globenot just in annual training sessions,but continuously.AI could help bring continuous learning to the widest scale possible by recommending courseware based on what analysts are readi
56、ng or writing about in their daily work.For an analyst researching Chinese fifth-generation fighter development,AI could recommend he or she complete a short training on quantum RADAR or read a history of Chinese aviation.AI could also recommend If AI could take on much of the prep work in assemblin
57、g sources,creating graphics or eve drafting reports,human analysts could focus on the needs of the decision-maker and the implications of the situation.The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis8when analysts need to take breaks o
58、r change tasks to keep fresh.Maintaining the tech itself.From the steam engine to computers,new technologies need maintenance and AI is likely to be no different.One significant challenge to using AI effectively in high-stakes situations such as intelligence work is having confidence in the outputs
59、of AI models.Beyond just following up on AI-generated leads,organizations will likely also need to maintain AI tools and to validate their outputs so that analysts can have confidence when using them.In medicine,where AI is beginning to be applied to diagnostic tools such as MRI imagery,validating t
60、he output of AI models against known benchmarks is becoming a common new task for hospital staff.14 Much of this validation can be performed as AI tools are designed or training data is selected.But while cancer isnt trying to deny or deceive doctors,foreign actors may attempt to use adversarial exa
61、mples to fool AI used in intelligence.This means that validation will need to be a continuous task not only for analysts but for IT staff as well.But while cancer isnt trying to deny or deceive doctors,foreign actors may attempt to use adversarial examples to fool AI used in intelligence.This means
62、that validation will need to be a continuous task not only for analysts but for IT staff as well.15 Avoiding pitfallsThe fact that AI could require new tasks just to make sure it is operating correctly does highlight a potential danger:AI could eat up more time than it gives to analysts.And given th
63、at AI brings so much change,organizations adopting AI at scale will experience some level of friction.You simply cannot change the tasks of 20 percent of your workforce or add weeks worth of new tasks without straining staff,business processes,and existing tools.Intelligence organizations that want
64、to get the best from AI need to recognize the pitfalls and find ways to mitigate them.NEW TECH AS A TIME SINKPerhaps the most significant pitfall is the possibility that,rather than creating new value,AI ends up monopolizing analysts time.Such situations have emerged before,as with the health care i
65、ndustrys implementation of electronic health records(EHR).While EHR promised to reduce health care professionals workloads,recent research has shown that EHR has,in fact,increased the amount of time it takes doctors to document patient visits.16 Doctors using EHR spend more time typing during patien
66、t visits,which reduces the amount of face-to-face time they have with patients.Overall,this drop in interaction has fed negative perceptions among both patients and doctors.17 Interestingly though,the EHR example can help intelligence organizations avoid this pitfall.While doctors spend more time do
67、cumenting in EHR than with paper notes,nurses and clerical staff actually experience significant time savings in their tasks.So EHR causing doctors to spend more time is not necessarily a failure of the technology;rather,it reflects the strategic priorities of the organization,essentially shifting s
68、ome billing and clerical workload from staff to physicians.18 If we are unhappy with the outcome,it is not the technologys fault.Rather,it reflects a need to reevaluate the business and technical strategies that led to it.If intelligence organizations are to avoid similar issues with the adoption of
69、 AI at scale,they must be clear about their priorities and how AI fits within their overall strategy.An organization The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis9focused on increasing productivity will pursue very different AI tools
70、 from one looking to improve the accuracy of analytical judgments.AI is not the solution to every problem,and having a clear vision about its value can help ensure it is applied to the right problems.Having clarity about the goals of an AI tool can also help leaders communicate their vision for AI t
71、o the workforce and alleviate feelings of mistrust or uncertainty about how the tools will be used.Second,intelligence organizations should avoid investing in“empty technology,”using AI without having access to the data it needs to be successful.AI is something like a flour mill:Without the grain to
72、 feed it,it is not going to produce much value.Even the most advanced AI tool will have limited utility if it lacks effective training data or sufficient input data.Without the right data,AI tools can still eat up time as analysts attempt to use them,but their outputs will be of limited utility.The
73、result will be frustrated analysts who view AI as a waste of their limited time.ANALYST MISTRUSTAnalysts perceptions are critically important to the successful at-scale adoption of AI.Survey results suggest that analysts are most skeptical of AI,compared to technical staff,management,or executives.1
74、9 And as seen above,if the workforce does not see the value in a tool,it will be unlikely to use it.To overcome this skepticism and get the most from AI,management will need to focus on educating the workforce and reconfiguring business processes to seamlessly integrate the tools into workflows.With
75、out these steps,AI can just be a costly afterthought.For example,one federal agency implemented an AI pilot to generate leads for its investigators to follow up.However,the investigators were also simultaneously generating their own leads.With limited time for follow-up,the investigators naturally p
76、rioritized the leads they had come up with themselves and rarely used the leads generated by AI.20 Overcoming analysts initial doubts about a given AI tool comes down to creating trust between the analysts and the tool.Because they must stand behind their assessments even when powerful people may di
77、sagree,analysts harbor an understandable reluctance to put faith in something they cannot explain and defend.Having an interface that allowed the analyst to easily scan the data underpinning a simulated outcome,for example,or to view a representation of how the model came to its conclusion,would go
78、a long way toward that analyst incorporating the technology as part and parcel of his or her workflow.This would allow for much more reliable,trusted data,and would yield more reliable analysis being presented to war fighters and decision-makers.While having a workforce that lacks confidence in AIs
79、outputs can be a problem,the opposite may also turn out to be a critical challenge.For many decades,intelligence leaders have been aware of the phenomenon where adding data to an analysts judgments increases the analysts confidence that they are right without actually improving the If we are unhappy
80、 with the outcome,it is not the technologys fault.Rather,it reflects a need to reevaluate the business and technical strategies that led to it.The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis10works overall accuracy.21 In other words,mo
81、re data played into analysts confirmation biasthey used the new evidence to support their preconceived conclusions instead of helping create more accurate analysis.The psychology experiments that lie at the heart of that observation were done using two to five times additional data.AI would make ord
82、ers of magnitude more data available to analysts,possibly exacerbating analysts confirmation bias.For example,in the financial services industry,early experience shows that AI can provide analysts with roughly 30 times the amount of data available today.22 It is simply unknown how human cognition wi
83、ll respond to such an unprecedented volume of data.Analysts could become less confident in AI judgments due to information overload.Or,conversely,with so much data at their disposal,analysts could become overconfident,implicitly trusting the AI.The latter could be especially dangerous:Many aviation
84、accidents have shown that mismatch between human trust in automation and human understanding and supervision of it can lead to tragedies.23Conversely,there are promising ways in which AI could actually help analysts combat confirmation bias and other human cognitive limitations.For instance,AI could
85、 be given tasks that help check the validity of assessments that humans struggle to find time for or are burdensome to do manually.Machines would be very good at continuously conducting key assumptions checks,analyses of competing hypotheses,and quality of information checks.24 Senior analytic manag
86、ers could also leverage AI to alert them to mismatches between evidence coming in and their teams assessments,giving them an opportunity to direct analytic line reviews and focus their attention on problem areas.In the end,the impact AI may have on the cognitive biases of analysts is simply not know
87、n.Leaders need to pay careful attention to analysts concerns,evaluate business process design,and continuously monitor AI performance to help prevent any potential pitfalls.AI tradecraft:How to get started todayThe greatest benefits of AI will be achieved when,like electrification,it is embedded int
88、o every aspect of an organizations operation and strategy.25 For all the game-changing benefits that AI can bring at scale,or the organization-shaking pitfalls,the immediate steps to getting started can be surprisingly familiar.Across a government agency or organization,successful adoption at scale
89、would require leaders to harmonize strategy,organizational culture,and business processes.If any of those efforts are misaligned,AI tools could be rejected or could fail to create the desired value.Leaders need to be upfront about their goals for AI projects,ensure those goals support overall strate
90、gy,and pass that guidance on to technology designers and managers to ensure it is worked into the tools and business processes.Establishing a clear AI strategy can also help organizations apply AI to tackle a variety of problems,from mission-facing to back-office.Such a strategy can frame decisions
91、about what infrastructure and partners are necessary to access the right AI tools for an organization.With 83 percent of enterprise AI in the cloud,organizations can find it easier to develop AI tools in-house,purchase from external vendors,or even find an existing solution already in use elsewhere
92、in the cloud.26 At a division or team level,the first steps shift from strategic alignment to analyst adoption.Tackling some of the significant nonanalytical challenges analyst teams face could be a palatable way to introduce AI to analysts and build their confidence in it.Today,analysts are inundat
93、ed with The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis11a variety of tasks,each of which demands different skills,background knowledge,and the ability to communicate with decision-makers.For any manager,assigning these tasks across a
94、team of analysts without overloading any one individual or delaying key products can be daunting.AI could help pair the right analyst to the right task so that analysts can work to their strengths more often,allowing work to get done better and more quickly than before.Similarly,AI could help manage
95、rs evaluate performance and screen job applicants for aptitude for a particular skill or even identify all-around stars,much like Special Operations Command is exploring with Marine Raider applicants.27 The benefit to these nonanalytical uses of AI is that when analysts see AI aid them in their work
96、,rather than competing with them,they would likely become more comfortable working with AI as it moves into more analytical tasks.AI is not coming to intelligence work;it is already here.But the long-term success of AI in the IC depends as much on how the workforce is prepared to receive and use it
97、as any of the 1s and 0s that make it work.The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis12APPENDIX:METHODOLOGYOur analysis began with Department of Labor O*NET data for the intelligence analysis occupation.However,since the O*NET data
98、 for intelligence analysis is based on very few survey responses,we supplemented with similar occupations,such as investigative police officer,to create a list of detailed work activities or“tasks,”that could accurately represent the breadth of intel analysis.In developing our model,we then broke th
99、e tasks into two archetypes to reflect some of the diversity in the type of work intelligence analysts can perform.For each archetype we assigned tasks to different stages of the intel cycle and included rough levels of effort for each task.Next,we calculated the automation potential for each task u
100、sing the same algorithm from our previous research into the impact of AI on government.28 The calculation considers various factors,including how much social intelligence,creative intelligence,and perception or manipulation each task requires to estimate how automatable the task is.Tasks that are mo
101、re amenable to automation will feature time savings,while tasks less suitable to automation may actually see time gains as analysts are able to spend more time on these activities(figure 4).For even more background on our approach,see the analysis from our original report.How much time AI may save o
102、n a particular task is a function of how much interpersonal interaction,creativity,or manual dexterity a task requires.While both tasks involve collaboration,the focus of one is on sharing information,a highly automatable activity,while the focus of the other is on working with others,a less automat
103、able task that requires significant interpersonal interaction.Source:Deloitte analysis.Deloitte Insights| for AICollaborating with other authorities on activities,such as surveillance,transcription,and researchTask for analystsCollaborating with representatives from other government and intelligence
104、 organizations to share information or coordinate intelligence activitiesTime savedMore time+11%+58%FIGURE 4Small differences in tasks can have large impacts on automatabilityCollaboration tasksThe future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel an
105、alysis13The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis141.Russ Travers,“The coming intelligence failure:A blueprint for survival,”Central Intelligence Agency Library,April 14,2007.2.Jeff Desjardins.“How much data is generated each day
106、?,”World Economic Forum,Apr 17,2019.3.Richard Horton et al.,Automation with intelligence:Reimagining the organization in the Age of With,Deloitte Insights,September 6,2019.4.Cortney Weinbaum and John N.T.Shanahan,Intelligence in a data-driven age,National Defense University Press,2018.5.Office of th
107、e Director of National Intelligence,The AIM Initiative:A strategy for augmenting intelligence using machines,January 16,2019;Brian Fung,“5.1 million Americans have security clearances.That is more than the entire population of Norway,”Washington Post,March 25,2014.6.Success in future warfare will be
108、 determined by whoever can collect,analyze,disseminate,and act on information the fastest.For more see:Shawn Brimley et al.,“Building the future force:Guaranteeing American leadership in a contested environment,”March 29,2018.7.Adam Mussomeli et al.,The digital supply network meets the future of wor
109、k,Deloitte Insights.December 18,2017.8.Ronald Burt,Brokerage and Closure:An Introduction to Social Capital(New York:Oxford University Press,2005).9.Jim Guszcza and Jeff Schwartz.“Superminds:How humans and machines work together,”Deloitte Review 24,January 28,2019.10.Jaclyn Peiser,“The Rise of the Ro
110、bot Reporter,”New York Times,February 5,2019.11.Lucia Moses,“The Washingtons Posts robot reporter has published 850 articles in the past year,”DigiDay,September 14,2017.12.Lt.Gen.(retired)Vincent Stewart,former head of Defense Intelligence Agency,correspondence with the authors,September 27,2019.13.
111、Joe Mariani,“Racing the future of production:A conversation with Simon Roberts,operations director of McLarens Formula One Team,”Deloitte Review 22,January 22,2018.14.Thomas M.Maddox,John S.Rumsfeld,and Philip R.O.Payne,“Questions for artificial intelligence in health care,”JAMA 321,no.1(2019):pp.31
112、2.15.Ian Goodfellow et al.,“Attacking machine learning with adversarial examples,”OpenAI,February 24,2017.16.Lise Poissant et al.“The impact of electronic health records on time efficiency of physicians and nurses:A systematic review,”Journal of the American Medical Informatics Association:JAMIA 2,n
113、o.5(2005):pp.50516,doi:10.1197/jamia.M1700.17.Onur Asan,Paul D.Smith,and Enid Montague.“More screen time,less face timeimplications for EHR design,”Journal of Evaluation in Clinical Practice 20,no.6(December 2014):pp.896901.18.Pascale Carayon et al.,“Implementation of an electronic health records sy
114、stem in a small clinic:The viewpoint of clinic staff,”Behaviour&Information Technology 28,no.1(2009):pp.520.19.Horton et al.,Automation with intelligence.20.Deloitte project work for a Federal Security Agency.EndnotesThe future of intelligence analysis:A task-level view of the impact of artificial i
115、ntelligence on intel analysis15The authors would like to express sincere thanks to Lt.Gen.(retired)Vincent Stewart along with Tim Chase,Bev McDonald,Matt Jennings,Alex Addy,May Meyers,and Peter Viechnicki of Deloitte Consulting LLP and Derek Pankratz of Deloitte Services LP for their expertise and a
116、dvice.We owe a special debt to Pankaj Kishnani from Deloitte Support Services India Pvt.Ltd.and,Rebecca Kaim,Matt Murphy,Jason Atwell,and Oleg Oleinic of Deloitte Consulting LLP for their great work in the creation of the underlying models used in this research.Acknowledgments21.Richards Heuer,The P
117、sychology of Intelligence Analysis(Militarybookshop.Co.UK,2010):pp.545.22.The number(30 times)is derived from estimates of 10 x overall data growth between 2016 and 2025(David Reinsel,John Gantz,and John Rydning,Data Age 2025:The digitization of the world,International Data Corporation,November 2018
118、)and an upper bound of how AI could make existing,but unused data within a firm available to decision-makers(Mark Gualtieri.“Hadoop is datas darling for a reason,”Forrester.January 21,2016).23.Crashes such as Air France flight 447 or Aeroflot flight 593 highlight the real dangers of an overreliance
119、or lack of understanding of automation among workers using those tools.24.Richard J.Heuer Jr.and Randolph H.Pherson,Structured Analytic Techniques for Intelligence Analysis(Washington,DC:CQ Press,2015).25.Erik Brynjolfsson,Daniel Rock,and Chad Syverson.“Artificial intelligence and the modern product
120、ivity paradox:A clash of expectations and statistics,”NBER Working Paper No.24001,October 16,2019.26.Jeff Loucks,Artificial intelligence:From expert-only to everywhere:TMT predictions 2019,Deloitte Insights,December 11,2018.27.Nicholas Martin.“USSOCOM develops AI tech to evaluate Marine Raider candi
121、dates,”Executive Gov.September 27,2019.28.Peter Viechnicki and William Eggers,How much time and money can AI save government?,Deloitte Insights,April 26,2017.The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis16Kwasi Mitchell|Kwasi Mitchel
122、l is a principal in Deloitte Consulting LLPs Government and Public Services practice(GPS).He has more than 15 years of consulting experience,mainly supporting physical and information security programs within the Department of Homeland Security,Department of Justice,Department of Defense,and the fin
123、ancial services,telecommunications,technology,and energy sectors.Previously,Mitchell served as the Strategy Offering lead within Deloitte GPSs Strategy&Analytics portfolio,leading nearly 400 practitioners.Mitchell holds a PhD in inorganic chemistry from Northwestern University,an MBA from Drexel Uni
124、versity,and a BA from Kalamazoo College.Joe Mariani|Joe Mariani leads research into defense,security,and law enforcement for Deloittes Center for Government Insights.His research focuses on innovation and technology adoption for both national security organizations and commercial businesses.Marianis
125、 previous work includes experience as a consultant to the defense and intelligence industries,high school science teacher,and Marine Corps intelligence officer.Adam Routh|Adam Routh is a research manager with Deloittes Center for Government Insights and a PhD student in the Defence Studies Departmen
126、t at Kings College London.His research areas include emerging technologies,defense,and security,with a focus on space policy.Routh previously worked for the defense program at the Center for a New American Security(CNAS).Prior to CNAS,he worked in the private sector,where he facilitated training for
127、 Department of Defense components.He also served as a team leader with the US Armys 75th Ranger Regiment.Akash Keyal|Akash Keyal is a senior research analyst with the Deloitte Center for Government Insights.He focuses on delivering key insights on topics related to defense,security,and justice.Alex
128、Mirkow|Alex Mirkow leads Deloitte Consulting LLPs relationships with the US Department of Justice and the US courts.He specializes in advising federal,international,and private sector clients in the area of strategy and operations.Mirkow brings more than 20 years of experience in strategic planning,
129、financial modeling,performance measurement,and evaluating operating results.Previously,Mirkow led Deloittes relationship with the Transportation Security Administration(TSA)and served as the national sponsor for Deloittes Hispanic Network(HNet)business resource group(BRG).About the authorsThe future
130、 of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis17Contact usOur insights can help you take advantage of change.If youre looking for fresh ideas to address your challenges,we should talk.Practice leadershipVincent DennisPrincipal|Deloitte Consulti
131、ng LLP+1 703 517 0864|As leader of Deloitte Consulting LLPs Federal Financial Management practice,Vincent Dennis choreographs the development and provision of finance strategy,financial operations,cost management,and integrated performance management services.He has also served as a senior ad advise
132、r to intelligence community and federal law enforcement agency executives.The Deloitte Center for Government Insights William EggersExecutive director|The Deloitte Center for Government Insights|Deloitte Services LP+1 202 246 9684|William Eggers is the executive director of Deloittes Center for Gove
133、rnment Insights,where he is responsible for the firms public sector thought leadership.Joe MarianiManager|Client and Marketing Growth in United States|Deloitte Services LP+1 240 731 1985|Joe Mariani leads Deloittes research into defense,intelligence,and justice issues for Deloittes Center for Govern
134、ment Insights.The future of intelligence analysis:A task-level view of the impact of artificial intelligence on intel analysis18The Deloitte Center for Government Insights shares inspiring stories of government innovation,looking at whats behind the adoption of new technologies and management practi
135、ces.We produce cutting-edge research that guides public officials without burying them in jargon and minutiae,crystalizing essential insights in an easy-to-absorb format.Through research,forums,and immersive workshops,our goal is to provide public officials,policy professionals,and members of the me
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