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By: Todd South The new chief for research in the Pentagon is building an artificial intelligence center, pushing for self-driving vehicles in combat zones and more powerful lasers, and says solving the hypersonic gap means updating testing facilities. Defense Undersecretary for Research and Engineering Michael Griffin testified before the House Armed Services Committee last week, answering questions on a range of gear and procurement questions. But those most relevant to service members included weapons systems on the horizon that troops could see in combat with near peer adversaries. More rapid development will include the use of unmanned ground vehicles in formations. The Army recently announced the 10th Mountain Division and the 101st Airborne Division will have a robotic combat vehicle called the Squad Multipurpose Equipment Transport in the ranks this year for testing, which will develop the likely full-fielding gear mule-type robot. Simple tasks, such as delivering food, mail, water and fuel, could be automated sooner than some think, Griffin said. “I think, frankly, we're going to have self-driving vehicles in theater for the Army before we'll have self-driving cars on the streets,” Griffin said. “If that can be done by an automated unmanned vehicle with a relatively simple AI driving algorithm where I don't have to worry about pedestrians and road signs and all of that, why wouldn't I do that?” Griffin pointed to Chinese systems that have been fielded or can be soon fielded that can launch a strike and reach out “thousands of kilometers” from the Chinese shore and “hold our carrier battle groups or forward deployed forces on land” at risk. “We, today, do not have systems which can hold them at risk in a corresponding manner, and we don't have defenses against those systems,” Griffin told the House Armed Services Committee members on April 18. Another Chinese technology threat includes the nation's development of swarm drone technologies to counter U.S. airpower and other strengths. That means getting powerful laser systems up to snuff. But it won't happen tomorrow. “We need to have 100-kilowatt-class weapons on Army theater vehicles. We need to have 300-kilowatt-class weapons on Air Force tankers,” Griffin said. “We need to have megawatt-class directed energy weapons in space for space defense. These are things we can do over the next decade if we can maintain our focus.” Scientists he's been talking with have told him that level of laser power is five to six years away and a “megawatt laser” is within a decade with persistent investment. ‘An unacceptable situation' Sen. Martin Heinrich, D-N.M., pointed out that the testing facilities, such as White Sands Missile Range in his state, have scarcely seen any upgrades or improvements in the past two decades, despite leaps in technology for missiles, lasers and other items. Griffin agreed, saying at a low estimate at least 20 such testing facilities across the nation are in the same situation. He said the Defense Advanced Research Projects Agency does most of the leading-edge work on hypersonic missile systems and they have exactly one testing facility, a NASA wind tunnel near Langley, Virginia. “This is an unacceptable situation,” Griffin said. He promised to return with budget requests to renovate those facilities to improve testing. Sen. Gary Peters, D-Mich., asked about a new area of focus that has broad-reaching effects: artificial intelligence. Griffin oversees the creation of a Joint Artificial Intelligence Center that would create AI solutions for all the service branches. He deferred on the details but told members that he expected to return with a plan within two months. “We owe the Congress a report, I think, about two months from now on what our A.I. strategy will be. And the JAIC, the Joint Artificial Intelligence Center, will be a part of that overall strategy,” Griffin said. The plan must consider the 592 projects across the Defense Department that have AI as part of their development. https://www.defensenews.com/news/your-military/2018/04/24/new-pentagon-research-chief-is-working-on-lasers-ai-hypersonic-munitions-and-more/

David Pugliese The problems centre around technical issues. Some are minor but in other cases there is a view among defence industry officials that Canada is asking for too much in some areas Canada's quest for a new fleet of warships is off to a rocky start with all bidders failing to meet some of the federal government's requirements. Procurement officials are now trying to regroup on the $60-billion project and figure out ways that bidders might be able to change their proposals to make them acceptable, a number of defence industry executives pointed out. The problems centre around technical issues. Some are minor but in other cases there is a view among defence industry officials that Canada is asking for too much in some areas such as radar, which may be causing problems with meeting requirements. Public Services and Procurement Canada spokeswoman Michèle LaRose said the bids received for the Canadian Surface Combatant project have not been disqualified. Three bids have been received. The federal government and Irving Shipbuilding are still evaluating the proposals, she added. LaRose pointed out that the evaluation is at the second stage in the process. Government officials say that involves what is known as “the cure process” in which bidders will be given details of how their proposals have failed to meet the stated criteria. They will then be given only one opportunity to fix issues with their bids. If they are still considered “non-compliant” after the cure period they “will be eliminated from the competition,” according to the federal government. Technical specifications are now being evaluated by the government. Later this year, the companies will provide the financial information related to their bids. Warship builders submitted their bids on Nov. 30. A winning bid is expected to be selected sometime this year. Irving Shipbuilding will begin construction of the first ship in the early 2020s and delivery of the first vessel is expected in the mid-2020s, according to the federal government. But the project has been plagued with delays and controversy. The final cost of the ships is still unknown. In 2008 the government estimated the total cost of the project to be about $26 billion. But in 2015 navy commander Vice Admiral Mark Norman voiced concern that taxpayers may not have been given all relevant information, and publicly predicted the cost for the ships alone would be around $30 billion. Cost estimates for the project are now between $55 billion and $60 billion. About half of the cost is for systems and equipment that will go on the 15 ships, according to federal documents obtained by Postmedia through the Access to Information law. “Approximately one-half of the CSC build cost is comprised of labour in the (Irving's) Halifax yard and materials,” the documents added. Last year, Jean-Denis Fréchette, the parliamentary budget officer, estimated the CSC program would cost $61.82 billion. He also warned that every year the awarding of the contract is delayed beyond 2018, taxpayers will spend an extra $3 billion because of inflation. The surface combatant will be the backbone of the future Royal Canadian Navy. In November in a surprise twist a French-Italian consortium declined to formally submit a bid and instead offered Canada a fleet of vessels at half the price. Officials with Fincantieri of Italy and Naval Group of France said they don't believe the procurement process as it is currently designed will be successful. Instead they provided the Canadian government with a direct proposal that Irving Shipbuilding on the east coast construct 15 ships based on the consortium's FREMM frigate design, which is proven and is currently in operation with the French and Italian navies. They are guaranteeing the cost of the ships at a fixed price of $30 billion. The deal would have also focused on using Canadian technology on board the ships and included technology transfer to Canadian firms, so they could be involved in future sales of the FREMM vessels on the international market. FREMM ships are operated by the Italian, French, Moroccan and Egyptian navies. Under that plan, Irving could start building the warships almost immediately. The Liberal government, however, rejected the deal. http://nationalpost.com/news/canada/new-canadian-warship-project-off-to-rocky-start-as-bidders-fail-to-meet-some-requirements

By: Daniel Cebul WASHINGTON ― A U.S. Marine Corps pilot has successfully flown an F-35B Lightning II with a 3-D printed part. The Marine Fighter Attack Squadron 121 used 3-D printing to replace a worn bumper on the landing gear of the fighter jet. Marine Corps Sgt Adrian Willis, deployed with Combat Logistic Battalion 31, 31st Marine Expedition Unit, used the 3-D printer as part of a process otherwise known as additive manufacturing. Without a 3-D printing capability, the entire door assembly would have needed to be replaced, a more expensive and more time-consuming repair. Rather than waiting weeks for a replacement the bumper was printed, approved and installed within a few days. The repair demonstrates the value that additive manufacturing technology brings to forward-deployed units. “I think 3-D printing is definitely the future ― it's absolutely the direction the Marine Corps needs to be going,” Willis said. “As a commander, my most important commodity is time,” according to Marine Corps Lt. Col. Richard Rusnok, the squadron's commanding officer. “Although our supply personnel and logisticians do an outstanding job getting us parts, being able to rapidly make our own parts is a huge advantage.” Building off the achievement with the F-35 part, the MEU's explosive ordnance disposal team requested a modification part to function as a lens cap for a camera on an iRobot 310 small unmanned ground vehicle. Such a part did not exist at the time, but Willis and the 3-D printing team designed and produced the part, which is currently operational and protecting the robot's lens. https://www.defensenews.com/industry/techwatch/2018/04/25/marines-3-d-print-replacement-parts-for-f-35-unmanned-ground-vehicle/

DAVID PUGLIESE, OTTAWA CITIZEN Here is defence industry news from my article in the latest issue of Esprit de Corps magazine: MDA, a Maxar Technologies company, signed a contract worth around $8 million to provide the Department of National Defence with what is being called a Maritime Miniature Unmanned Aircraft Systems (MMUAS). The contract also includes services to support training, resource and equipment development activities and development and validation of naval tactics and new capability development, according to the firm. MDA's solution is based on the Puma AE (All Environment) unmanned aircraft built by Aeroviroment.The photo above courtesy of the U.S. Navy shows the Puma AE. The Puma has the ability to carry additional payloads as required for specific missions. The MMUAS is the first UAS project that will see the RCN operate and maintain its own capability and provide a sustainable shipborne, near real-time, Beyond Visual Line Of Sight (BVLOS) ISR capability with an expected introduction to the fleet in the summer of 2018 onboard Kingston-class ships. The Puma AE is operated from the same control station as the Raven UAS which has been provided by MDA to the Canadian Army since 2013. In addition, MDA, also announced it has signed a contract with an unnamed international customer for the provision of turnkey, unmanned aircraft system surveillance services. The contract includes options for additional years. MDA's UAS service will use a fleet of Schiebel CAMCOPTER S-100 rotary-wing unmanned aircraft to provide surveillance information. MDA will be responsible for all aspects of the service including acquisition of all the systems and required infrastructure, training, airworthiness, logistics, supply chain, maintenance and all flight operations, the firm noted. The S-100 aircraft is a vertical takeoff and landing UAS, which does not require a prepared area or supporting launch or recovery equipment. It operates day and night and is a very capable platform for a wide range of different surveillance payloads to meet a broad set of mission requirements. MDA's UAS service will equip the S-100 fleet with L3 WESCAM MX-10 EO/IR payloads. The MX-10 is a high-performance, multi-sensor multi-spectral imaging system for tactical surveillance missions. It carries multiple sensors including both high-definition day modes and night infrared modes. The MX-10 is currently operational for twelve nations worldwide on the S-100. Pratt & Whitney Canada has signed a 12-year Fleet Management Program agreement with Specialist Aviation Services for 24 PW210A engines powering 12 Leonardo AW169 helicopters. The program has been specifically tailored to SAS's needs and helps reduce operating costs and simplifies fleet operations management, according to Pratt and Whitney. Operating primarily in the United Kingdom, SAS provides support to emergency services and other major organizations that rely on aircraft to support their operations. SAS is one of the fleet leaders on the AW169 program. Rheinmetall has won the first request for proposals for preliminary studies relating to European Union defence research financed by the EU's European Defence Union. Under a project known as “Generic Open Soldier Systems Reference Architecture”, or GOSSRA, the European Commission has put the Düsseldorf-based tech group in charge of a consortium consisting of partners from nine different EU member states. Under the GOSSRA project, studies will be conducted into developing an open reference architecture as the basis of EU-wide standardized soldier systems. This includes electronics, voice and data communication, software solutions, man-machine interfaces, sensors and effectors. Rheinmetall makes the German Bundeswehr's IdZ-ES soldier system as well as the Canadian military's Argus system. http://ottawacitizen.com/news/national/defence-watch/royal-canadian-navy-getting-new-miniature-maritime-drone-this-summer-update-on-defence-industry-news-and-contracts

by Sandra Erwin Kernan: Project Maven so far has been “extraordinarily” useful in processing intelligence but more capabilities are needed. TAMPA, FLA. — Undersecretary of Defense for Intelligence Joseph Kernan, a retired Navy vice admiral, is rarely seen or heard at public events. But he decided to step on the stage and address the nation's largest gathering of geospatial intelligence professionals to relay a message that the military is in the market for cutting-edge technology. “The reason I agreed to speak is that a lot of capacity and technology remains untapped,” Kernan said in a keynote speech on Monday at the GEOINT symposium. DoD collects loads of data from satellites, drones and Internet-of-things devices. But it needs help making sense of the intelligence and analyzing it quickly enough so it can be used in combat operations. It needs powerful artificial intelligence software tools that the tech industry is advancing at a past pace. The most promising AI effort the Pentagon has going now is Project Maven. Military analysts are using Google-developed AI algorithms to mine live video feeds from drones. With machine learning techniques, software is taught to find particular objects or individuals at speeds that would be impossible for any human analyst. Kernan said Project Maven only started a year ago and so far has been “extraordinarily” useful in overseas operations. “I would have liked to have had it in my past,” said Kernan, a former special operations commander. There is such heightened interest in AI that the Pentagon got Project Maven approved and under contract in two months. More importantly, said Kernan, the “capability was tested overseas. Not in the Pentagon.” For AI algorithms to be valuable to the military, they have to produce relevant intelligence, he cautioned. “Don't be developing capability to serve warfighters while sitting in the Pentagon. Make sure you address their needs by working with the forces out there. That's key to Project Maven. It works with users.” Software, no matter how advanced, will not replace human analysts, said Kernan. “It's about enabling analysts to use their cognitive process so they don't have to jam and finger push things into a computer.” What annoys Kernan? “That we really haven't taken all the advantage we can of technology.” That may be about to change as DoD ramps up AI efforts. Defense procurement chief Ellen Lord said the Pentagon will start bringing together AI projects that already exist but do not necessarily share information or resources. “We have talked about taking over 50 programs and loosely associating those,” Lord told reporters. “We have many silos of excellence.” Undersecretary of Defense for Research and Engineering Michael Griffin will oversee a new AI office that will bring in “elements of the intelligence community,” he said. But many details remain to be worked out. The speed at which the Pentagon moved with Project Maven is “truly groundbreaking,” said Mike Manzo, director of intelligence, threat and analytic solutions at General Dynamics Mission Systems. The company provides training and advisory services to the National Geospatial-Intelligence Agency. “This community is not accustomed to rapid acquisition, and rapid deployment,” Manzo told SpaceNews. “I applaud the Project Maven staff, the government, and everybody who is involved with that.” Another reason Project Maven is “disruptive” is that it shows that analysts are beginning to trust new sources of intelligence and nontraditional methods, Manzo said. “What's encouraging is that the outputs of these systems are being trusted by the users,” he said. “A machine comes up with an answer and the human gives the thumbs up or down,” he said. “If DoD is trusting this, it's a tremendous step.” Even though a human is supervising, the focus doesn't have to be on “making sure the machine is doing the things I asked the machine to do.” None of this means decisions are being made by computers, Manzo said. “But these technologies help optimize the human analyst to do what they are really good at: intuition.” As the Pentagon seeks ways to bring AI into the battlefield, “Maven has a lot of promise.” http://spacenews.com/defense-intelligence-chief-a-lot-of-technology-remains-untapped/

MARINE CORPS AIR STATION IWAKUNI, Japan — State-of-the-art parts fabrication is keeping America's most advanced stealth fighter in the air during its first deployment aboard the USS Wasp. When a plastic bumper for a landing-gear door wore out this month on an F-35B Lightning II embarked on the amphibious assault ship, a 3-D printer was used to whip up a new one. The Iwakuni-based jet from Fighter Attack Squadron 121 later flew successfully with the new part, a Marine statement said. Called “additive manufacturing,” the process from Naval Air Systems Command allowed the Marines of Combat Logistics Battalion 31 to create the new bumper and get it approved for use within days, the statement said. Otherwise, they would have had to replace the entire door assembly, which is expensive and time consuming. “While afloat, our motto is ‘fix it forward,'” Chief Warrant Officer 2 Daniel Rodriguez, CLB-31's maintenance officer, said in the statement. “3-D printing is a great tool to make that happen.” The Navy said parts created using the 3-D printer are only a temporary fix, but it kept the jet from being grounded while waiting for a replacement from the United States. Lt. Col Richard Rusnok, commander of VMFA-121, lauded the use of the new technology. “Although our supply personnel and logisticians do an outstanding job getting us parts, being able to rapidly make our own parts is a huge advantage as it cuts down our footprint thus making us more agile in a shipboard or expeditionary environment,” he said in the statement. Marine Sgt. Adrian Willis, a computer and telephone technician who created the bumper, said he was thrilled to be involved in the process. “I think 3-D printing is definitely the future — it's absolutely the direction the Marine Corps needs to be going,” he said in the statement. The printer has been used multiple times during the patrol, the Navy said, including to create a lens cap for a camera on a small, unmanned ground vehicle used by an explosive ordnance disposal team. Templates for the parts will be uploaded to a Marine Corps-wide 3-D printing database to make them accessible to other units. bolinger.james@stripes.com Twitter: @bolingerj2004 https://www.stripes.com/news/3-d-printer-keeps-f-35b-flying-during-uss-wasp-deployment-1.522987

CHRIS MACLEAN © 2018 FrontLine Defence (Vol 15, No 2) A critically honest and engaged discussion about government and industry engagement, was held recently at the Telfer School of Management as part of the new Complex Project Leadership Programs. The program participants (mostly federal civil servants who are involved in procurement) interacted with executive-level industry leaders – Joe Armstrong, Vice President and General Manager at CAE; Jerry McLean, Vice President and Managing Director of Thales Canada; Iain Christie, Vice President of AIAC; and Kevin Ford, CEO of Calian – who shared their leadership insights, as well as what it is really like to do business in Canada. Through the highlighting of mutual pain points and frustrations, as well as identifying what is being done well and ways to move forward together, efficiently, each party gained insight and understanding that is sure to improve communication and future progress. It was evident that both sides wanted to learn from each other and pinpoint the principles that would help achieve mutual success; ultimately impacting the national economic footprint and saving taxpayer dollars. From the industry perspective, dependability equals direction. When a company can be assured that it has a fair opportunity to compete for a contract, it can set its sights on that goal and will make the necessary investments to ensure the best possible outcome. When government programs start and stop and change and restart, companies find it difficult to justify the extended costs because they lose their competitive edge and/or any ability to make a profit. Instability does not save the taxpayer, but it does have the potential to impact both quality of product and sustainability of the bidders (therefore employment numbers). Contracts equal sustainability and confirmation that the company direction is on track for success. Profit equals growth and further investment. Employment and supply chain purchases depend on a profit margin that allows growth. This “number one” business requirement conflicts with the government's prime directive is to ensure its bidders make a bare minimum of profit. When asked what they need from their government counterparts in order to create a better working relationship and foster a robust industry that can contribute to a strong GDP, the industry panelists identified two key elements. One was “more accuracy in the procurement process” and the other was “predictability”. Industry must be able to foresee where profits and sustainability could potentially come from. The time it takes to award large projects is also a limiting factor to success. It was noted that, since the beginning of time, a cornerstone of success for industry has always been ensuring the satisfaction of its client. It is believed that trust in the quality of the product and ease of customer service will lead to sustainability in the form of continued business. Not so with government contracts, which seem skewed to ensure previous successes gain no advantage, and must in some cases be hidden from decision-makers. Not taking into account a company's excellent past delivery performance, was said to contribute to industry's lack of incentive to perform to the best of its ability at all times. A company's ability to invest goes beyond individual contracts, which means the prospect of being evaluated for value can be a powerful incentive for going that extra mile – if exploited, not suppressed. Government employees were encouraged to exhibit courage in pursuing ways to truly streamline the procurement process, rather than repeatedly adding more and more layers of approvals and meetings. Industry leaders across the spectrum have commented on a palpable “lack of trust” on the part of government negotiators. Does this mistrust come from contract negotiators feeling the pursuit of profit is somehow un-Canadian? Or does it mean a company does not care enough about its customers? Neither assumption is accurate, and this may be one area where a culture change could make a world of difference. As one audience member exclaimed: “This was the best, most transparent conversation regarding the procurement process, I have ever heard.” While large-scale procurements will always be contentious due to the huge dollars and risk at stake, embracing the concept of open and unreserved dialogue, like what was experienced by this small group, has the potential to uncover procurement pitfalls and create a more progressive process. The Telfer School of Management's Complex Program Leadership programs focus on the hard and soft skills necessary to successfully deliver inherently complex programs and projects, while emphasizing strategic thinking, creative problem solving, stakeholder engagement, and leadership skills as key building blocks for this goal. http://defence.frontline.online/article/2018/2/9586-Bridging-the-vast-%C2%ADProcurement-Divide

Canada positioned to lead globally in five emerging technology areas while building on its strengths April 23, 2018, Ottawa Canada has a strong and innovative defence industry with over 650 companies that employ more than 60,000 Canadians. One way the Government of Canada supports this industry is the Industrial and Technological Benefits (ITB) Policy, which requires that for every dollar it spends on big defence purchases, the winning contractor must put a dollar back into Canada's economy. In the past 30 years, the ITB Policy has generated investments of $30 billion in Canada's economy, and generates around 40,000 jobs annually. Through Canada's defence policy, Strong Secure, Engaged, defence purchases are being used to unlock billions of dollars in economic benefits and create middle-class jobs. To maximize these opportunities, the Honourable Navdeep Bains, Minister of Innovation, Science and Economic Development, today announced that the government will use the ITB Policy to motivate defence contractors to invest in Key Industrial Capabilities (KIC). These are five areas of Canadian industrial strength in emerging technologies, which have the potential to grow quickly, and 11 established industrial capabilities where Canada is globally competitive or where domestic capacity is essential to national security: Emerging technologies Advanced materials Artificial intelligence Cyber resilience Remotely piloted systems and autonomous technologies Space systems Leading competencies and critical industrial services Aerospace systems and components Armour Defence systems integration Electro-optical and infrared systems Ground vehicle solutions In-service support Marine ship-borne mission and platform systems Munitions Shipbuilding, design and engineering services Sonar and acoustic systems Training and simulation Key Industrial Capabilities align with the government's Innovation and Skills Plan by supporting the development of skills and fostering innovation in Canada's defence sector. Quotes “Our defence industry asked for a list of Key Industrial Capabilities, and we delivered. As a result of promoting investment in areas with potential for rapid growth, our armed forces will be better equipped, we will have a stronger economy and we will create thousands of middle-class jobs.” – The Honourable Navdeep Bains, Minister of Innovation, Science and Economic Development “Canada's defence industry welcomes Key Industrial Capabilities as an important policy tool to strengthen our government-industry partnership. KICs will incentivize strategic investments in existing and emerging defence and security capability where Canada has leading-edge and globally competitive technologies. The capabilities identified today demonstrate the world-class, innovation-led nature of the defence and security industry here in Canada.” – Christyn Cianfarani, President and CEO, Canadian Association of Defence and Security Industries “By defining its Key Industrial Capabilities, the government has provided another significant instrument for leveraging public procurements to increase investment in areas of Canadian industrial strength and opportunity. The strong aerospace presence in the KICs identified by the government today illustrates the strength of our industry, as well as its potential to continue building its competitive advantage in the years ahead. We are very pleased that the government has identified its KICs, and congratulate Minister Bains on the successful launch of this important procurement tool.” – Jim Quick, President and CEO, Aerospace Industries Association of Canada Quick facts The list of Key Industrial Capabilities will evolve over time to reflect technological advances and changing defence requirements and will be reviewed and updated on a regular basis. Adoption of these Key Industrial Capabilities was first recommended in the 2013 report, Canada First: Leveraging Defence Procurement Through Key Industrial Capabilities (also known as “The Jenkins Report”). The defence industry is both innovative, with an R&D intensity 4.5 times the Canadian manufacturing average, and export-oriented, with 60 percent of its sales in 2016 taking place in the global market. From 1986 to 2016, the overall portfolio of ITB obligations included 137 contracts valued at $41.5 billion, with $28.3 billion in business activities already completed, $9.4 billion of activities in progress and $3.8 billion in unidentified future work opportunities. Associated links Industrial and Technological Benefits Policy Key Industrial Capabilities Defence Acquisition Guide 2016 Strong Secure, Engaged Innovation and Skills Plan Canada First: Leveraging Defence Procurement Through Key Industrial Capabilities Contacts Follow the department on Twitter: @ISED_CA Karl W. Sasseville Press Secretary Office of the Minister of Innovation, Science and Economic Development 343-291-2500 Media Relations Innovation, Science and Economic Development Canada 343-291-1777 ic.mediarelations-mediasrelations.ic@canada.ca https://www.canada.ca/en/innovation-science-economic-development/news/2018/04/driving-job-creation-and-innovation-in-canada-through-defence-spending.html

News release From: National Defence April 6, 2018 – Ottawa, Ont. – National Defence/Canadian Armed Forces In Canada's defence policy, Strong, Secure, Engaged, the Department of National Defence (DND) commits to focusing on defence research and development to produce innovative solutions to surveillance challenges in the North, including the priority areas of Arctic joint intelligence, surveillance and reconnaissance. Today the Government of Canada, has awarded a contract to Cellula Robotics Ltd to develop a fuel cell that will improve the ability for autonomous underwater vehicles to store sufficient energy to undertake long range and long duration missions. This contract has a total value of close to $648,000 and is being awarded under the 2016 Innovation Call for Proposals for the All Domain Situational Awareness (ADSA) Science & Technology (S&T) program. Surveillance solutions support the Government of Canada's ability to exercise sovereignty in the North, and provide a greater awareness of safety and security issues, as well as transportation and commercial activity in Canada's Arctic. In addition, solutions may contribute to joint efforts between Canada and the United States to renew the North Warning System and modernize elements of the North American Aerospace Defense Command (NORAD). Through an investment of close to $133 million through to 2020, the ADSA S&T program coordinates and funds innovative research and analysis to support the development of options for enhanced domain awareness of air, maritime surface and sub-surface approaches to Canada, in particular those in the Arctic. Quotes “In order to address Canadian challenges we need to explore innovative made-in-Canada solutions, especially given the extensive coastline in the Arctic. Our academic institutions and innovation industry are among the best in the world and we are proud to work with them to address particularly complex surveillance issues for the Arctic.” Defence Minister Harjit S. Saijan “Our Government is committed to providing the members of the Canadian Armed Forces with the tools they need to do their jobs, while obtaining the best possible value for Canadians. These contracts will draw upon Canadian expertise to develop cutting-edge surveillance technologies for the Arctic.” The Honourable Carla Qualtrough Minister of Public Services and Procurement Quick facts ADSA is a program led by DND, which aims to leverage innovative science & technology expertise from other government departments, academia, industry and allies, to identify, assess and validate technologies in support of air and maritime surveillance, particularly in the North. National Defence's science and technology organization Defence Research and Development Canada (DRDC) is the national leader in defence and security S&T. It provides the defence S&T community, the Canadian Armed Forces and other government departments, as well as the public safety and security communities, with the knowledge and technology advantage needed to defend and protect Canada's interests at home and abroad. Related products Backgrounder - Government of Canada announces contract award to Cellula Robotics Ltd for research and development in support of sub-surface surveillance in Arctic Associated links All Domain Situational Awareness Program Government of Canada Announces Contract Awards for All Domain Situational Awareness Science & Technology Program Government of Canada Announces 2016 Call For Proposals Bid Submission Period for Science and Technology Investments Contacts Media Relations Department of National Defence Phone: 613-996-2353 Email: mlo-blm@forces.gc.ca Follow National Defence Science and Technology (@DRDC_RDDC) on Twitter For more information, please visit www.drdc-rddc.gc.ca https://www.canada.ca/en/department-national-defence/news/2018/04/government-of-canada-announces-contract-award-to-cellula-robotics-ltd-for-research-and-development-in-support-of-sub-surface-surveillance-in-arctic0.html