2024-03-29T06:15:09Zhttps://escholarship.org/oaioai:escholarship.org:ark:/13030/qt3wt3613v2019-04-26T16:34:55Zqt3wt3613vAssessing the State of Understanding of Defense InnovationCheung, Tai MingMahnken, Thomas G.Ross, Andrew L.2018-05-30The central focus in this brief is to make sense of different approaches to defense innovation by determining whether there are general patterns and characteristics that offer insights into questions such as why some states are able to pursue innovation at a faster rate or more advanced level than others, and the essential ingredients for successful innovation. This brief seeks to develop an understanding of the relationship between defense innovation and military innovation, and more specifically the linkages and interaction between the defense innovation system and the military establishment.innovationgreat power competitionChinaUnited Statesdefenseapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/3wt3613varticleSITC Research Briefsvol Series 10, iss 2018-1oai:escholarship.org:ark:/13030/qt170219mp2019-04-26T16:34:32Zqt170219mpCritical Factors in Enabling Defense Innovation: A Systems PerspectiveCheung, Tai Ming2018-05-30This brief provides an analytical framework to identify, categorize, and assess the diverse array of factors that are involved in the pursuit of defense innovation, as viewed through an innovation ecosystem prism. Defense innovation systems are engaged in highly complex, time-consuming and resource-intensive work. Many of the insights from this framework are derived from an extensive examination into the state of innovation in the contemporary Chinese defense science, technology, andindustrial system, examined in more detail in Brief 2018-3 in this series.defense innovationanalytical frameworkChinaapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/170219mparticleSITC Research Briefsvol Series 10, iss 2018-2oai:escholarship.org:ark:/13030/qt6rr4j9cv2019-04-26T16:33:41Zqt6rr4j9cvRussian Defense Innovation in the 2010sKashin, Vasily2018-05-30Innovation in the Russian defense industry has drawn significant international attention since Russian President Vladimir Putin’s state of the nation address of March 1, 2018. While the first part of the address covered the usual ground of planned economic policies, the second part was an extended presentation of Russian defense industry achievements. What Putin left outwas as important as what he highlighted, and provides a clear picture of Russia’s prioritization of radical over incremental innovation, sometimes to the detriment of current battlefield readiness. This research brief discusses Russia’s successes and failures in modernizing its weapons systems since 2000.Russiadefense innovationPutinradical innovationapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/6rr4j9cvarticleSITC Research Briefsvol Series 10, iss 2018-8oai:escholarship.org:ark:/13030/qt1hw200dw2019-04-26T16:33:13Zqt1hw200dwInnovation in the Interwar YearsMahnken, Thomas G.2018-05-30Defense innovation is the transformation of ideas and knowledge into new or improved products, processes, and services for military and dual-use applications. It refers primarily to organizations and activities associated with the defense and dual-use civil-military science, technology, and industrial base. Included at this level are, for instance, changes in planning, programming, budgeting, research, development, acquisition and other business processes. The period between the two world wars offers a rich set of cases for examining defense innovation. These include the development of armored warfare, strategic bombing, close air support, carrier aviation, amphibious warfare, and radio and radar. Whereas others have focused on military innovation in the interwar period, the focus of this brief is on defense innovation in general, andthe development of tanks in Britain, the United States, and Germany in particular.defense innovationGermanyBritainUnited Statestanksapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/1hw200dwarticleSITC Research Briefsvol Series 10, iss 2018-11oai:escholarship.org:ark:/13030/qt7c75995r2019-04-26T16:32:53Zqt7c75995rHow China’s Defense Innovation System Is Advancing the Country’s Military Technological RiseCheung, Tai Ming2018-05-30The preceding brief in the series provided an analytical framework for examining a country’s defense innovation system and the factors that shape innovation outcomes. This brief applies the framework to examine the factors at work in the Chinese defense innovation system. There are many reasons explaining the successful transformation of the Chinese defense innovation system from an ossified dinosaur in the 1990s to an increasingly credible military technological competitor on the global stage at the end of the 2010s. China’s approach to defense innovation has undergone considerable evolution since it launched a full-fledged modernization of its defense science, technology, and industrial (DSTI) system in the late 1990s. Some of these changes mirror what has taken place within the civilian sector, but there is also much that is different because of the specific dynamics of the defense arena.defense innovationChinascience and technologyapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/7c75995rarticleSITC Research Briefsvol Series 10, iss 2018-3oai:escholarship.org:ark:/13030/qt6wb1f7tf2019-04-26T16:32:05Zqt6wb1f7tfExamining India’s Defense Innovation PerformanceBehera, Laxman Kumar2018-05-30India has expended a great deal of energy and resources to set up a vast defense economy to innovate and produce state-of-the-art weapon systems for use by the armed forces. However, the performance of the defense economy has been largely suboptimal, leading to poor self-reliancein arms procurement and heavy dependence on foreign sources for meeting the key defense requirements. An examination of the causes of poor performance exhibits a number of hortcomings related to India’s both 'hard' and 'soft' innovation capacities. Inefficiency and lack of reforms of the main research and development (R&D) and manufacturing players, meager R&D and procurement budgets, poor management of human resources, lack of strong support from the political leadership, and a weak acquisition system, leave India’s defense innovation in a poor state.defense innovationIndiaarms procurementR&Dapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/6wb1f7tfarticleSITC Research Briefsvol SEries 10, iss 2018-10oai:escholarship.org:ark:/13030/qt037138xt2019-04-26T16:31:26Zqt037138xtA Quest for Autonomy and Excellence: The Defense Innovation Systems of France and SwedenLundmark, Martin2018-05-30The defense innovation systems (DIS) in France and Sweden have longstanding traditions of domestic innovation and high self-reliance, but they differ greatly in how they have achieved these ambitions. France has almost complete self-reliance in defense technology and close government control of activities contributing to defense innovation and regarding the defense industry. In France, there is considerable state ownership, and foreign ownership is blocked. In contrast, Sweden has delimited its breadth of sovereign technology development since the 1990s, and now expresses three "essential security interests": fighter aircraft, underwater capability, and cyber. This research brief describes what characterizes the present defense innovation systems in these countries, discusses their similarities and differences, and points out factors that have led to their success.defense innovationFranceSwedenstate ownershipapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/037138xtarticleSITC Research Briefsvol Series 10, iss 2018-6oai:escholarship.org:ark:/13030/qt66n8s5br2019-04-26T16:31:02Zqt66n8s5brNew Frontiers of Chinese Defense Innovation: Artificial Intelligence and Quantum TechnologiesKania, Elsa B.2018-05-30Will the Chinese military succeed in advancing new frontiers of defense innovation? China has already emerged as a powerhouse in artificial intelligence and quantum technologies. The continued advances in these dual-use technologies may be leveraged for military applications pursuant to a national strategy of military-civil fusion. At this point, the trajectory of technological developments is uncertain, and considerable challenges remain to the actualization of deeper fusion of China’s defense and commercial sectors. However, if successful, China’s ambitions to lead in these strategic technologies could enable it to pioneer new paradigms of military power.Chinadefense innovationartificial intelligenceAIquantum technologydual usemilitary-civil fusionapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/66n8s5brarticleSITC Research Briefsvol Series 10, iss 2018-12oai:escholarship.org:ark:/13030/qt1958g0f92019-04-26T16:30:32Zqt1958g0f9North Korea’s Approach to Defense Innovation: Foreign Absorption, Domestic Innovation, and the Nuclear and Ballistic Weapons Industrial BaseHaggard, StephanCheung, Tai Ming2018-05-30The international community has consistently underestimated North Korean nuclear and missile capabilities. How has an economically impoverished, technologically backward, and internationally isolated state been able to establish robust and increasingly competent nuclear weapons and ballistic missile programs, especially since the mid-2010s? Has North Korea predominantly relied on foreign sources of technology or are its nuclear and missile programs the result of domestic effort? Even when technologies have been borrowed, a detailed analysis of the evolution of the programs suggests sustained domestic investment has proven crucial. The result is a far-flung and large weapons of mass destruction (WMD) infrastructure. Any negotiations over the program must take the extent of this infrastructure into account and consider the challenges of how to inspect, verify, and limit them, including through repurposing these capabilities to civilian uses.North Koreanuclear weaponsballistic missilesWMDapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/1958g0f9articleSITC Research Briefsvol Series 10, iss 2018-9oai:escholarship.org:ark:/13030/qt9bp5v4z72019-04-26T16:29:58Zqt9bp5v4z7The Very Healthy US Defense Innovation SystemGholz, EugeneSapolsky, Harvey M.2018-05-30The US defense innovation system enjoys tremendous advantages that other countries cannot readily replicate. It has accumulated capabilities over decades of funding and experimentation that dwarf other countries’ efforts, and the incentives to innovate in the United States are not easily replicable elsewhere. The unique US political system favors substitution of technology for labor, openness to new ideas, and competition among decentralized organizations to solve national security challenges. The constant worrying that the United States is losing its defense innovation advantages is simply part of the politics that keep the United States far, far ahead of its potential rivals.United Statesdefense innovationtechnologyapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/9bp5v4z7articleSITC Research Briefsvol Series 10, iss 2018-5oai:escholarship.org:ark:/13030/qt7vp2x1552019-04-26T16:29:24Zqt7vp2x155Military-Technological Innovation in Small States: The Cases of Israel and SingaporeBitzinger, Richard2018-05-30Israel and Singapore are both countries with small populations and no strategic depth, and both see technology as a crucial force multiplier when it comes to national security. Israel, however, has been much more successful than Singapore in developing a range of indigenous military-technological innovations. The reasons are both geostrategic and cultural. Israel faces a much more looming and imminent threat which demands more military-technological innovation. Moreover, Israel’s informal and anti-hierarchical society is much more supportive than Singapore’s when it comes to risk-taking and experimentation.IsraelSingaporedefense innovationmilitary-technological innovationindigenous industryapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/7vp2x155articleSITC Research Briefsvol Series 10, iss 2018-4oai:escholarship.org:ark:/13030/qt4t07267h2019-04-26T16:29:02Zqt4t07267hThe Israeli Approach to Defense InnovationAdamsky, Dmitry2018-05-30The brief reflects on the evolution of the Israeli approach to military innovation and describes its proclivities, in order to enable comparative analysis and a more generalizable analytical framework. It first describes the structural factors that account for the Israeli fixation on the military-industrial complex and defense innovation; then it outlines the social-organizational factors, which have enabled and conditioned its realization. It concludes with an evaluation of the strengths and weaknesses of the Israeli approach and a review of recent trends.defense innovationIsraelqualitative military edgeapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/4t07267harticleSITC Research Briefsvol Series 10, iss 2018-7oai:escholarship.org:ark:/13030/qt7p85x8w92019-04-26T16:28:11Zqt7p85x8w9Introduction to 2018 SITC Research BriefsCheung, Tai Ming2018-05-30How do countries around the world approach and engage in defense innovation? Are there common patterns, catalysts, and enabling factors that identify and explain why some countries are successful while others struggle? This year’s edition of research briefs from the University of California’s Institute on Global Conflict and Cooperation Study of Innovation and Technology in China project examines these questions.defense innovationapplication/pdfpubliceScholarship, University of Californiahttps://escholarship.org/uc/item/7p85x8w9articleSITC Research Briefsvol Series 10, iss 2018