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September 17, 2019 | International, Aerospace, Naval, Land, C4ISR, Security

The DARPA Small Business Programs Office (SBPO) has pre-released the following SBIR/STTR Opportunities (SBOs)

The DARPA Small Business Programs Office (SBPO) has pre-released the following SBIR/STTR Opportunities (SBOs):

"Holistic Object Tracking", FBO Solicitation Number HR001119S0035-13, published at: https://www.fbo.gov/spg/ODA/DARPA/CMO/HR001119S0035-13/listing.html.

"Patterned, Responsive Cellular Therapies Using Novel Mammalian Cellular Regulator Systems", FBO Solicitation Number HR001119S0035-16, published at: https://www.fbo.gov/spg/ODA/DARPA/CMO/HR001119S0035-16/listing.html.

"Sparse Information Orbit Estimation for Proliferated LEO", FBO Solicitation Number HR001119S0035-22, published at: https://www.fbo.gov/spg/ODA/DARPA/CMO/HR001119S0035-22/listing.html.

"Self-Reconfigurable Modular Ground Robots", FBO Solicitation Number HR001119S0035-23, published at: https://www.fbo.gov/spg/ODA/DARPA/CMO/HR001119S0035-23/listing.html.

"Fabrication and Testing of Large Aperture Achromatic Visible Metalens for Imaging Applications", FBO Solicitation Number HR001119S0035-24, published at: https://www.fbo.gov/spg/ODA/DARPA/CMO/HR001119S0035-24/listing.html.

These SBOs will open for proposals on September 27, 2019 and close on October 28, 2019.

On the same subject

  • Use existing and planned craft for unmanned logistical resupply

    June 10, 2020 | International, Aerospace

    Use existing and planned craft for unmanned logistical resupply

    By: Wayne Prender and David Phillips To counter expected adversary anti-access/area denial strategies, U.S. naval forces will face significant challenges resupplying dispersed units under emerging distributed operations concepts, particularly in the large geographical distances of the Western Pacific. Future Marine littoral regiments, for example, will require layers of manned and unmanned vessels capable of moving personnel and materiel in decentralized operations to complicate enemy decision-making and targeting. Naval leaders have made clear such decentralized resupply of small, but lethal, expeditionary teams is key to defeating anti-access/area denial threats. With the Department of the Navy already challenged to affordably build and sustain a larger combat fleet, designing, buying and commissioning significant numbers of purpose-built craft solely for this purpose is not ideal. Rather, the Navy should look to adapt fleets of scaled derivative versions of existing or planned naval craft types — particularly those which can be unmanned or optionally manned for specific missions. This option provides the Navy with a greater breadth of capabilities at a more affordable cost. A future fleet of unmanned logistical connectors can leverage existing and planned programs of record. The technology already exists to optionally man or unman such vessels. Appropriately scaled and tailored derivatives of these vessels would conduct logistical cargo missions when required, in addition to performing the existing vital functions the craft already carry out for the fleet. The unmanned logistics fleet would be a necessary adjunct to larger planned manned assets, such as a next-generation light amphibious warship. Naval planners will have to strike a balance between size, capability and affordability. However, even with a lower cost, the vessels must still be large and flexible enough to be capable of performing multiple missions with different payloads. The resulting craft should also be able to reliably operate autonomously over a wide range of environmental conditions at significant distances, have a light logistics footprint and possess sufficient cargo-carrying capacity. Rather than a homogeneous unmanned cargo fleet, the Navy could instead utilize several derivatives of existing vessels it already operates or has planned, which will ease any additional maintenance or training burden. Marines operating in the wide-open spaces of the Western Pacific might, for example, use larger variants capable of hauling cargo over greater distances, while units in other geographic locations are equipped with smaller versions more appropriate for their specific environments. The ability to repurpose multiple craft types would allow a more diverse fleet composition of manned and unmanned vessels teamed for mission-tailored flexibility. Moreover, craft that can accommodate interchangeable payloads would also be available to naval planners for additional missions. For example, the vessels could be equipped with a variety of intelligence, surveillance and reconnaissance sensors to improve fleet situational awareness while also performing the cargo resupply missions. Buying scaled derivatives of existing program craft will bring additional benefits, including cost savings through economies of scale for acquisition, while minimizing any upfront developmental costs, as hull forms, key components and systems largely already exist. Moreover, because much of the basic systems and components will be common, training, maintenance and repair functions can be streamlined, adding yet more savings over the vessels' life cycles. Likewise, the technologies for unmanning and optionally manning are well along in their development, while autonomous behaviors and autonomy technologies developed for other programs can be reused rather than having to be created anew. For example, autonomous behaviors and control technologies developed for unmanned aircraft systems can be leveraged for naval applications, while similar autonomy technologies for unmanned ground vehicles are also progressing. Within the naval domain, experimentation such as Advanced Naval Technology Exercise 2019 and Exercise Citadel Shield-Solid Curtain earlier this year have already demonstrated that unmanned surface vessels can autonomously station keep, navigate around obstacles, protect high-value assets and conduct other necessary core functions. As autonomy technologies further develop, unmanned naval craft of the size and complexity envisioned for logistics and cargo hauling will be able to add new missions and functionality. Longer term, delivery of logistical payloads to Marines on a beachhead can be done completely with unmanned platforms. For example, small to medium robotic ground vehicles loaded with supplies could be carried by one of these unmanned logistical craft. Rather than Marines exposing themselves to hostile fire while unloading supplies on the beach, robotic ground vehicles or aerial drones disembark from the vessels and deliver cargo directly to the Marines in a more secure location. Such vehicles need not be fully autonomous, but rather could be partially autonomous or remotely operated from the security of the protected location. While many details of this concept require further exploration and refinement, conducting experimentation to bring truly multidomain capabilities to bear on the resupply challenge is a worthy endeavor. Getting these and related technologies into the hands of sailors, Marines and other U.S. forces to test and refine will be the quickest and most fruitful way to develop the new concepts and field the necessary capabilities. Wayne Prender and David Phillips are senior vice presidents at Textron Systems. https://www.defensenews.com/opinion/commentary/2020/06/09/use-existing-and-planned-craft-for-unmanned-logistical-resupply/

  • The US Navy and Marine Corps should acquire Army watercraft

    June 23, 2020 | International, Naval

    The US Navy and Marine Corps should acquire Army watercraft

    By: Capt. Walker D. Mills and Lt. Joseph Hanacek The Navy intends to acquire up to 30 new light amphibious warships, or LAW, to support new Marine Corps requirements. The vessels are needed to meet the challenges of “evolving threats in the global maritime environment,” according to the Navy program office, and are tied to the new operational concepts of Expeditionary Advanced Base Operations and Distributed Maritime Operations as well as the Marine Corps' Force Design 2030 effort. Once complete, the acquisition will have almost doubled the number of L-class amphibious ships already in naval service. Rather than accepting a new amphibious design built from the ground up, however, decision-makers should take advantage of the fact that many key requirements of the new vessels are very similar to the capabilities of vessels operated by U.S. Army Transportation Command. The Navy and Marine Corps should delay any new construction and immediately acquire some of these existing vessels to drive experimentation and better inform their requirements for the LAW program. The key requirements of the future LAW include having 8,000 square feet of cargo space, a range of 3,500 miles, a speed of up to 14 knots, accommodation for a crew of up to 40 Navy personnel and 75 embarked Marines, and up to 200 feet in length. The vessel also needs to have a roll-on/roll-off capability, preferably with a stern ramp. U.S. Army Transportation Command has over 100 vessels, and dozens have similar capabilities to those required of the LAW. The Army's LCU-2000s, also called the Runnymede-class large landing crafts, are smaller, with roughly half of the cargo space designed for the LAW and slightly slower, but they boast nearly double the range. The Runnymede-class vessels have nearly 4,000 square feet of cargo space and can travel 6,500 miles when loaded and at 12 knots; and they can unload at the beach with their bow ramp. The Army's General Frank S. Besson-class logistics support vessels are larger than the future LAW, at 273 feet in length but can claim 10,500 square feet of cargo space and a 6,500-mile range loaded to match the LCU-2000. These vessels also have both a bow and stern ramp for roll-on/roll-off capability at the beach or ship-to-ship docking at sea. The version built for the Phillipine military also has a helipad. Army Transportation Command has 32 Runnymede-class and eight General Frank S. Besson-class vessels in service. Mostly built in the 1990s, both classes of vessel have many years left in their life expectancy and more than meet the Navy's 10-year life expectancy for the LAW. These vessels are operable today and could be transferred from the Army to the Navy or Marine Corps tomorrow. In fact, the Army was attempting to divest itself of these watercraft less than a year ago, which underscores the importance of this opportunity even further. Congress is firmly set against the Army getting rid of valuable, seaworthy vessels and has quashed all of the Army's efforts to do so thus far, but transferring this equipment to the Navy is a reasonable course of action that should satisfy all parties involved. While acquiring “surplus” military equipment might lack the allure and promise of designing a new ship class from the ground up, the reality of the situation is that this overlapping of service needs couldn't come at a better time. By acquiring a watercraft that meets most of their requirements from the Army, the Navy and Marine Corps simultaneously fill current capability gaps and obtain an invaluable series of assets they can use to support the evaluation and experimentation of new designs and concepts. This will allow Navy and Marine leaders to give their units the maximum amount of time to evaluate and experiment with new designs to get a better idea of what they need both in future amphibious craft as well as operational and support equipment. The significance of so rapidly acquiring the Army's amphibious craft isn't just limited to developing a better amphibious force either. There is a very real capability gap that exists in the fleet today in the areas of surplus seagoing capacity, and acquiring these Army watercraft would go an extremely long way toward addressing it. Often overlooked, the availability of surplus vessels is absolutely critical to the process of developing new technologies, developing the tactics to employ them, conducting training, and providing decision-makers the requisite capacity to remain flexible in the face of unexpected challenges. The Navy and Marine Corps today are hurtling toward a new future of distributed operations and unprecedented levels of integration in the littorals. The Marine Corps commandant has clearly specified that force design is his No. 1 priority and that significant changes to the Marine Corps are in the works. At the same time, the Navy and Marine Corps continue to serve as the first responders for many of the nation's emerging challenges around the globe. They've long been in need of a boost in their amphibious capabilities so as to be better positioned to meet the demands of today and prepare for the challenges of tomorrow, and taking possession of the Army's Runnymede- and Frank S. Benson-class vessels is a solution on a silver platter. Capt. Walker D. Mills is a U.S. Marine Corps infantry officer serving in Cartagena, Colombia. Lt. Joseph Hanacek is a U.S. Navy surface warfare officer based in Dam Neck, Virginia. The views expressed here are theirs alone and do not necessarily represent the views of these military branches or the Defense Department. https://www.defensenews.com/opinion/commentary/2020/06/22/the-us-navy-and-marine-corps-should-acquire-army-watercraft/

  • ‘Smaller, better, cheaper’ — the rise of portable drone interceptors

    February 20, 2023 | International, Aerospace

    ‘Smaller, better, cheaper’ — the rise of portable drone interceptors

    As drones swarm modern battlefields, so do technologies for taking them down.

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