The safe destruction of chemical warfare agents (CWAs) and organic precursors is a timely, costly, and significant challenge for the international community. Today, for example, there are no approaches that exploit chemistries that are truly agnostic in terms of the agents that can be processed. Additionally, current approaches require transport of agents from the storage site to a neutralization site, which can add significant cost and time to the destruction process. DARPA's ACDC program explored new technologies for neutralization of bulk stores of CWAs and organic precursors at or near the site of storage. ACDC developed and demonstrated the technologies needed to construct a transportable, prototype system that converts organic compounds into constitutive carbon/nitrogen/phosphorous/sulfur oxides and stable alkali or alkaline earth metal salts. The ACDC system featured chemistries for agent destruction and sequestration of halogens and other components using locally available or easily transportable resources. This webinar describes the DARPA ACDC program and its exploration of neutralization of bulk stores of CWAs and organic precursors at or near the site of storage.
Series: HDIAC Webinars
HDIAC offers free webinars on a regular basis with experts in the technical subject areas of Alternative energy, Biometrics, CBRN Defense, Cultural Studies, Critical Infrastructure Protection, Homeland Defense & Security, Medical, and Weapons of Mass Destruction.
In this webinar, Patrick Grother will describe the fundamentals of face recognition, its evaluation, and the performance results from the four ongoing tracks of the Face Recognition Vendor Test (FRVT). The session will detail gains from the new generation of algorithms, failure modes, quantification of demographic effects, aging, scalability, and give an overview of limitations and open research topics. Additionally, the session will cover standards for performance and attack detection measurement, face image quality assessment, face-aware capture, and future activities under FRVT.
The Countering Weapons of Mass Destruction (CWMD) Office within the Department of Homeland Security (DHS) is tasked, by Congress, to coordinate the federal government’s efforts to prevent chemical, biological, radiological, and nuclear (CBRN) terrorism within the United States. DHS/CWMD works with many interagency partners, bringing 872 authorities to engage with state, local, tribal, and territorial governments. Its mission is to support the Under Secretary of Defense for Policy and Assistant Secretary of Defense for Homeland Defense & Global Security by developing and overseeing strategies, policies, and their implementation to prevent the proliferation of WMD and WMD-related materials. Strategic goals include anticipating, identifying, and assessing current and emerging WMD threats; strengthening detection and disruption of CBRN threats; and synchronizing homeland counter-WMD with health security planning and execution. This webinar will provide insight into the relationships, capabilities, and authorities that make the DHS/CWMD office a unique and valuable resource.
In this webinar, Professor James Giordano of Georgetown University Medical Center, and Senior Fellow in Biosecurity, Technology, and Ethics at the US Naval War College describes the uses and value of big data and cyber-capabilities in bioscience and biotechnology; addresses the national security, intelligence, and defense applications of these tools and methods; illustrates vulnerabilities in these systems' infrastructures and functions, and posits the importance and necessity of bio-cybersecurity as a multi-organizational posture and enterprise.
The Defense Science Board has identified energy as one of the main enablers of future military operations and has noted that military energy usage could grow significantly in the near future, outpacing improvements to alternative energy sources. In March of 2020, the Pentagon issued several contracts to facilitate a design work “competition” for mobile, small nuclear reactors and the winning prototype will potentially be forward deployed with forces outside the United States. The project is managed through the Strategic Capabilities Office’s “Project Pele” which was formed to ensure the safe development of mobile and advanced nuclear microreactors for a variety of DoD missions. Desired features for the new reactors include quick set-up, shut-down, and the ability to facilitate rapid movement by road, sea, air, or train. This prototyping project will ensure that critical functions remain operational regardless of the status of the local power grid and allow users to combat physical or cyber espionage from weak grids.
Wireless power beaming is the transmission of electrical energy without a physical link. In a wireless power transmission system, a transmitter device, driven by electric power from a power source, transmits power across space to a receiver device, which extracts power from the field and supplies it to an electrical load. The technology of wireless power transmission can eliminate the use of the wires and batteries, thus increasing the mobility, convenience, and safety of an electronic device for users. In this presentation, Dr. Jaffe will present the visions for power beaming and space solar, and delve into their technical, regulatory, and economic challenges and opportunities.
This webinar discusses the risk of retinal burns or flash blindness to friendly troops following nuclear weapon use. In order to understand this threat, one must have a fundamental understanding of how the eye reacts to extremely luminous objects, considerations for the environment and time of day, and thermal effects of nuclear weapons. Historically, this has been a heavily studied topic, however previous studies have applied the question to pilots and aircrew operating at cruising altitude. Additionally, there are some counterintuitive aspects of the problem involving the inverse-square law applied to the weapon output and how yield influences the potential for eye injury. For planners, modelers, and subject matter experts, it is extremely important to understand the assumptions and technical aspects of the problem set in order to provide safe separation distances to servicemembers on the battlefield.
Electric power production in the United States faces challenges on several fronts. This includes the near-term retirement of aging coal-fired power plants, grid stability challenges arising from increased penetration of variable power generators, regional energy imbalances, and the need for more carbon-free power to meet government mandates. The reliability and resilience of power production systems are also gaining attention and thought must be given to hardening power generation systems against natural events such as severe weather events and the potential for man-made events such as aircraft impact, cybersecurity attacks, or electro-magnetic pulses. This webinar explores nuclear power and small modular reactors and discusses associated implementation challenges as part the US transformation to a 21st century power grid.
In this webinar, Mr. Mark Diglio, the US Army’s CBRN Survivability Program Manager, discusses the growing CBRN threat, CBRN survivability acquisition policy/requirements, renewed US Army priorities for CBRN survival, rapid acquisition initiatives, development considerations for survivability, mission critical concerns, and future survivability considerations.
Forensic DNA analysis has advanced significantly within the last 5 years and developments are beginning to be incorporated that will further push the boundaries of forensic science. By harnessing single nucleotide polymorphisms (SNPs) across the entire genome, forensic investigations are now being solved with the aid of innovative technologies developed by Parabon under DoD research contracts, many of which are now in use by the DoD. In this presentation, Dr. Ellen Greytak will use real life case studies to provide an overview of new forensic technologies such as DNA phenotyping, distant kinship analysis, next-generation sequencing (NGS), and forensic genetic genealogy, discussing the technologies, their use, and their application to the DoD.