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Domestic Nuclear Detection Office : ウィキペディア英語版 | Domestic Nuclear Detection Office
The Domestic Nuclear Detection Office (DNDO) is a jointly staffed office established April 15, 2005 by the United States to improve the Nation’s capability to detect and report unauthorized attempts to import, possess, store, develop, or transport nuclear or radiological material for use against the Nation, and to further enhance this capability over time.〔http://www.dhs.gov/xabout/structure/editorial_0766.shtm〕 DNDO coordinates United States federal efforts to detect and protect against nuclear and radiological terrorism against the United States. DNDO, utilizing its interagency staff, is responsible for the development of the global nuclear detection architecture, the underlying strategy that guides the U.S. Government’s nuclear detection efforts. DNDO conducts its own research, development, test, and evaluation of nuclear and radiological detection technologies, and is responsible for acquiring the technology systems necessary to implement the domestic portions of the global nuclear detection architecture. DNDO also provides standardized threat assessments, technical support, training, and response protocols for federal and non-federal partners. == Accusations of Failed Programs ==
Recently DNDO has come under heavy criticism for its failed Advanced Spectroscopic Portal Monitor (ASP) and (Cargo Advanced Automated Radiography System (CAARS) ) programs.〔(Senate Homeland Security Committee Press Release, Sept. 15, 2010 )〕 The U.S. Senate Committee on Homeland Security and Government Affairs has accused DNDO of wasting 5 years and millions of dollars.〔(Senate Homeland Security Committee Press Release, June 30, 2010 )〕 As of June 30, 2010, DNDO had spent $200 million trying to develop a new radiation detection technology – the ASP - that the Government Accountability Office (GAO) has concluded is only marginally better than existing technology. The ASP may have drained resources from other programs, including development and deployment of mobile, portable or hand-held technologies that could screen other types of inbound cargo or bulk shipments, like international trains and commercial aviation.〔 According to the GAO, from the start of the CAARS program in 2005 until the course correction in December 2007, DNDO planned the acquisition and deployment of CAARS machines without understanding that they would not fit within existing primary inspection lanes at CBP ports of entry. This occurred because during the first year or more of the program DNDO and CBP had few discussions about operating requirements for primary inspection lanes at ports of entry. In addition, the CAARS program was among numerous acquisition programs at DNDO for which appropriate DHS oversight was lacking. Furthermore, the development of the CAARS algorithms—a key part of the machine needed to identify shielded nuclear materials automatically—did not mature at a rapid enough pace to warrant acquisition and deployment. Moreover, the description of the progress of the CAARS program used to support funding requests in DNDO’s budget justifications for fiscal years 2009 through 2011 was misleading because it did not reflect the actual status of the program.〔(Inadequate Communication and Oversight Hampered DHS Efforts to Develop an Advanced Radiography System to Detect Nuclear Materials, GAO, September 15, 2010 )〕
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