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New Telecommunications Funding Opportunity Innovation, Science and Economic Development Canada are challenging innovators to develop a solution that will extend the range of wireless terrestrial backhaul links, while being cost-efficient without sacrificing reliable high-speeds. Think you can solve this challenge? Compete for funding to prove your feasibility and develop a solution! This challenge is open until December 16, 2020. Ultra-Long-Range Wireless Backhaul Download COVID Alert App Today COVID Alert is Canada's free exposure notification app. COVID Alert helps us break the cycle of infection. The app can let other app users know of possible exposures before any symptoms appear. That way, we can take care of ourselves and protect our communities.

Corrosion Detection in Ships Sandbox: Rust Never Sleeps Test your best solutions to find corrosion trouble spots for the Royal Canadian Navy (RCN). The Corrosion Detection in Ships Sandbox, delayed due to the COVID-19 pandemic, is now accepting applications. The Sandbox will take place at the Centre for Ocean Ventures & Entrepreneurship (COVE) facility in Halifax, Nova Scotia in the spring of 2021. Please note that if current COVID restrictions are not lifted in time for the Sandbox to proceed, additional postponement may be required. Participants will get the opportunity to showcase their products in realistic simulations, with successful demonstrations resulting in access to an actual vessel to demonstrate their solution in a real world environment. Apply now to test your technologies at one of the leading collaborative facilities for applied innovation in the ocean sector. The deadline to apply is December 15, 2020. Apply now Test Drives: Bringing a whole new element to the innovation ecosystem With new technology, there is no better way to see if it delivers on its promise then to put it to work. That's why IDEaS will soon be launching Test Drives, an element designed to take a product and put it in the hands of real armed forces members as they put it through its paces. Products will travel through this final stage of the IDEaS innovation pipeline into the real world, unlocking its potential. IDEaS will acquire use of the solutions to be evaluated via a purchase, lease, loan or other arrangement with the innovator. Stay tuned for details! Reminder: CFP4 Call Closing Soon! The deadline to apply for the new Competitive Projects challenges is fast approaching! Don't miss your opportunity to find new ways to support our troops with your logistics solutions, new armour designs and visual and data security. Applications must be submitted by December 10th, 2020. Sincerely, The IDEaS team

Une équipe québécoise d'élite d'une vingtaine d'employés en cybersécurité a inventé un outil informatique pour protéger les avions de chasse de l'armée. « Lorsqu'il y a intrusion, les dég'ts sont majeurs. Ça peut conduire à des écrasements ou à de l'interception d'information très sensible », explique calmement au bout du fil le PDG de StreamScan, Karim Ganame. Fondée en 2011, l'entreprise montréalaise compte parmi ses clients de gros noms des secteurs manufacturier et pharmaceutique connus que son grand patron préfère taire pour des raisons de sécurité. Ces dernières années, StreamScan a travaillé en étroite collaboration avec le Centre de la sécurité des télécommunications (CST) et le ministère de la Défense sur de nombreux projets à l'abri des regards. En gros, son outil détecte des anomalies. Par exemple, lorsqu'il y a des cyberattaques dans les avions, les systèmes informatiques vont se comporter différemment et la firme peut alors les alerter qu'une attaque est en cours. « Confiance en personne » Récemment, la PME a décroché un juteux contrat avec la Défense, qui s'intéresse à son puissant outil d'intelligence artificielle capable de sauver des vies, mais aussi de prévenir le vol d'informations ultras confidentielles. « On s'attend à ce que les alliés collaborent entre eux, mais on est quand même dans la Défense, et les intérêts peuvent varier en fonction de certaines circonstances ou de réalités géopolitiques. Bref, en cybersécurité, on a confiance en personne. Ça peut venir de n'importe où », analyse-t-il. Quand on lui demande si le Québec tire bien son épingle du jeu dans ce domaine, Karime Ganame en a long à dire sur les vice-présidents de grandes compagnies d'ici qui doutaient de sa capacité à fonder une entreprise. « On me disait que l'innovation en cybersécurité vient des États-Unis. J'ai dû leur dire : “Les États-Unis n'ont pas le monopole de la connaissance. Au Québec, on est capable de le faire”. Et on l'a fait », conclut-il. https://www.journaldemontreal.com/2020/11/09/des-genies-dici-protegent-les-avions-de-chasse

OTTAWA, ON, Nov. 10, 2020 /CNW/ - From humanitarian assistance to high-intensity conflicts, the Royal Canada Navy's future fleet will perform a wide range of missions requiring advanced technology and multi-role versatility. Lockheed Martin's latest generation SPY-7 radar and Canadian-developed Combat Management System (CMS 330) will form the backbone of the Canadian Surface Combatant. Under a contract awarded by Irving Shipbuilding Inc. in September 2020 for the SPY-7 radar system, CSC will have the capability to keep Canada's sailors safe and prepared in the face of modern threats. "We optimized the CSC ship design with this particular radar to ensure the Royal Canadian Navy can fulfill a variety of missions with its flexible architecture," commented Gary Fudge, vice president and general manager, Lockheed Martin Canada Rotary and Mission Systems. "Partnering with our teammates, Lockheed Martin Canada has also begun the technology transfer of selected components of the radar system to Canadian suppliers for design, construction and implementation. The work in Canada will open doors to a new export market for local industry, producing high value jobs in Quebec and across the country through subcontractors and suppliers involved in the production." Canada has secured the world's most versatile radar technology to deliver an integrated fire control system. SPY-7 is a modular and scalable solid-state radar that provides continuous surveillance, protection, and an exceptionally accurate threat picture to its operators. Its scalable, open architecture enables the flexibility to fulfill a variety of missions and expand its capabilities while its modularity provides for ease of maintenance at sea. With planned deployment on more than 24 platforms across four countries, SPY-7 leverages 50 years of continuous evolution and innovation of the U.S Navy's Aegis Combat System. Lockheed Martin has a trusted history of producing, integrating and delivering radars and combat management systems for land, air, undersea and sea-based mission sets. The core building block of the radar (called the "subarray suite") chosen to protect Canada has been directly leveraged from U.S. Government programs and investments. Spain has also selected SPY-7 for its future frigates and Japan has selected SPY-7 for continuous protection of its homeland. In addition to sustaining long-term, high-value jobs, this contract strengthens interoperability and partnership with the U.S. Navy and Royal Canadian Navy. Forming the backbone of Canada's future fleet, the SPY-7 radar and CMS 330 Combat Management System will support and protect the men and women of the Royal Canadian Navy for the next 40+ years. About Lockheed Martin Canada Headquartered in Ottawa, Lockheed Martin Canada is the Canadian unit of Lockheed Martin Corporation, a global security and aerospace company that employs some 110 000 people worldwide. Lockheed Martin Canada has been Canada's trusted defence partner for 80 years, specializing in the development, integration, and sustainment of advanced technology systems, products, and services. The company employs over 1000 employees at major facilities in Ottawa, Montreal, Halifax, Calgary, and Victoria, working on a wide range of major programs spanning the aerospace, defence, and commercial sectors. SOURCE Lockheed Martin https://www.newswire.ca/news-releases/royal-canadian-navy-to-be-protected-with-lockheed-martin-s-advanced-and-versatile-spy-7-radar-under-newly-signed-contract-805682582.html

Posted on November 10, 2020 by Seapower Staff WASHINGTON — The State Department has approved a possible Foreign Military Sale to the Government of Canada of Standard Missile 2 (SM-2) Block IIIC missiles and related equipment for an estimated cost of $500 million, the Defense Security Cooperation Agency (DSCA) said in a release. The Government of Canada has requested to buy 100 Standard Missile 2 (SM-2) Block IIIC missiles and 100 Mk13 Vertical Launch System canisters modified to employ the SM-2 Block IIIC missile. The proposed also would include “obsolescence engineering; integration and test activity associated with production of subject missiles; canister handling and loading/unloading equipment and associated spares; training and training equipment/aids; technical publications and data; U.S. Government and contractor engineering, technical, and logistics support; and other related elements of logistical and program support, the release said. This proposed sale will provide Canada with SM-2 Block IIIC missiles for installation on its planned 15 Canadian Surface Combatant ships, ensuring its ability to operate alongside U.S. and Allied naval forces against the full spectrum of naval threats. The principal U.S. contractor will be Raytheon Missiles and Defense, Tucson, Arizona. https://seapowermagazine.org/state-dept-approves-possible-sm-2-block-iic-missile-sale-to-canada/

The Royal Canadian Navy (RCN) released the latest details on the configuration of its next generation frigates: the Canadian Surface Combatant (CSC). They will be heavily armed, featuring Naval Strike Missiles, Tomahawk and both ESSM and Sea Ceptor! The RCN last week unveiled a PDF document shedding light on the latest configuration retained for its next gen class of frigate: the CSC. Naval News contacted various sources familiar with the program to confirm the selection of a number of systems listed in the document. What stands out in this new document is fact that the CSC will be fitted with a wide range of weapons, both offensive and defense, in a mix never seen before in any surface combatant. Naval Strike Missile (NSM) While NSM launchers were shown in the past on CSC scale models at various tradeshows (Surface Navy and Sea Air Space), the CSC model on display at DSEI 2019 was showing Harpoon launchers aboard the frigate To our knowledge, it is the first time that an official Royal Canadian Navy lists the NSM as the main anti-surface warfare (ASuW) weapon for the CSC. Contacted by Naval News, an industry source said Kongsberg was close to finalizing the deal. NSM has an operational range of 100 nautical miles (185 Km) and a high subsonic speed. It uses Inertial, GPS and terrain-reference navigation and imaging infrared homing (with a target database aboard the missile). The NSM is a fifth generation anti-sip missile, produced by Kongsberg and managed in the U.S. by Raytheon. NSM reached Initial Operational Capability on the Norwegian Fridtjof Nansen-class frigates and Skjold-class corvettes in 2012. It is also fielded by the Polish Navy (coastal defense batteries) and has been selected by the navies of Malaysia and Germany. NSM was also selected in 2018 as the winner of the U.S. Navy Over-The-Horizon Weapon System (OTH WS) competition and by the USMC last year. It will be fitted aboard the Littoral Combat Ship and the Constellation-class frigates. In the case of Canada, is selected, the NSM will likely be sourced from Raytheon via an FMS deal, rather than procured directly from Norway. Tomahawk land attack cruise missile If Tomahawk missiles end up in the CSC weapons package, this would be quite significant. So far, Raytheon's land attack cruise missile has only been exported to the United Kingdom in its submarine launched variant. Canada would become the second export customer for the missile and the only navy, with the US Navy to deploy it from surface vessels. Naval News contacted Raytheon for comment but we have not heard back yet. During the Sea Air Space 2019 tradeshow, representatives from Lockheed Martin Canada confirmed to Naval News the MK41 VLS aboard the frigate were “strike length”. The Tomahawk Land Attack Missile (TLAM) is a long-range, all-weather, jet-powered, subsonic cruise missile that is primarily used by the United States Navy and Royal Navy in ship- and submarine-based land-attack operations. Its latest variant, the RGM/UGM-109E Tomahawk Land Attack Missile (TLAM Block IV) has a range of 900 nautical miles (or 1,000 mi / 1,700 km). ESSM and Sea Ceptor The last thing that really caught our attention in the RCN document is the fact that both the ESSM and Sea Ceptor are listed. On paper, the two missiles are direct competitors and redundant: ESSM is a medium-range, all-weather, semi-active radar-guided missile used in surface-to-air and surface-to-surface roles. According to open sources, the RIM-162 Evolved SeaSparrow Missile (ESSM) has a range of about 27 nautical miles (50 Km) and a top speed of Mach 4+. Unlike ESSM Block 1, the Block 2's active radar homing seeker will support terminal engagement without the launch ship's target illumination radars. The improved ESSM Block 2 will be fielded by the US Navy from 2020. Canada is one of the 12 nations taking part in the NATO-led ESSM consortium and will be deploying the Block 2 variant aboard the future CSC. The will be launched from the Mk41 VLS. The missiles can be “quad packed” in a single cell. According to MBDA, Sea Ceptor is the next-generation, ship-based, all-weather, air defence weapon system. The Weapon System has the capability to intercept and thereby neutralise the full range of current and future threats including combat aircraft and the new generation of supersonic anti-ship missiles. Capable of multiple channels of fire, the system will also counter saturation attacks. It has a range of 25 Km, a speed of Mach 3 and features an active RF seeker. Also known as Common Anti-Air Modular Missile (Maritime) – CAMM(M), this new missiles has already been fielded aboard the Royal Navy's Type 23 frigates and the Royal New Zealand Navy ANZAC-class frigates. Sea Ceptor will also be fitted aboard the future Type 26 frigates. Contacted by Naval News, an MBDA source shed some light on how the Sea Ceptor was selected in addition to the ESSM. The two missiles were not competing against each other. Raytheon's ESSM was selected to provide “point defense”. Instead, MBDA pitched its missile for the RCN's close in weapons system (CIWS) requirement. The Sea Ceptor beat out systems usually used in that role such as the RAM, SeaRam or Phalanx. The final Sea Ceptor configuration aboard the CSC still needs finalized and confirmed but it will likely be 24x missiles launched from Lockheed Martin's Extensible Launching System (ExLS) located amidship. The RCN would become the launch customer for that new launcher alongside the Brazilian Navy (for its new corvette design based on the TKMS MEKO A-100) depending on who signs the contract first. CSC latest configuration Surveillance & Weapon Sensors Solid State 3D Active Electronically Scanned Array (AESA) Radar – LMC SPY-7 Solid State AESA Target Illuminator – MDA Navigation Radars – X & S Band Electro-Optical and Infrared Systems Electronic Warfare & Countermeasures Suite Radar/Radio ESM Frequency Identification Laser Warning and Countermeasures System Radio Frequency and Electronic Jammers Electronic Decoy System Naval News comments: An industry source informed us that except for the Torpedo decoy systems (to be provided by Ultra) the decoy launchers for CSC and their ammunition is one of the few systems that are still “up in the air”. We were told however that the RCN wants the full range of decoy types available on the market today: Infra red, chaff, corner reflectors, smoke for masking / screening and even offboard active decoys (such as Nulka). The EW suite of the CSC will be known as the RAVEN. Designed by Lockheed Martin Canada, it is based on the RAMSES system currently fitted aboard the Halifax-class frigates. Command & Control Combat Management System – LMC CMS 330 with AEGIS USN Cooperative Engagement Capability – Sensor Netting Integrated Cyber Defence System Integrated Bridge and Navigation System – OSI Internal and External Communication Suite – L3 Harris Aviation Facilities 1 x CH-148 Cyclone Helicopter Space for embarking Remotely Piloted Systems Helo Hauldown and Traverse System – Indal Technologies Inc. Weapons Missile Vertical Launch System 32 Cells – LMC MK 41 Area Air Defence Missiles – Raytheon Standard Missile 2 Point Defence Missiles – Raytheon Evolved Sea Sparrow Naval Fires Support – Raytheon Tomahawk Main Gun System – 127mm Lightweight Torpedoes MK54 & Twin Launch Tubes Close-In Air Defence System – MBDA Sea Ceptor Surface-to-Surface Anti-Ship Missile – Kongsberg Naval Strike Missile 2 x Stabilized Rapid Fire 30mm Naval Gun System – BAE Naval News comments: The main gun is another system on which the RCN has yet to formally make a choice. According to our sources, Italy's Leonardo 127/64 LW is still in competition against BAE System's Mk45 Mod 4. Note that the CSC scale models and illustrations (above) have always shown the American gun. In addition, the UK's Type 26 and Australia's Hunter-class frigates will both use the later naval gun system. A possible FMS of SM-2 Block IIIC missiles for the CSC was approved last week. Reconfigurable Mission & Boat Bays 1 x Rescue Boat – 9 metres 2 x Multi-Role Boats – 9-12 metres Mission Bay Handling System – Rolls Royce Modular Mission Support Capacity – Sea Container, Vehicles, Boats Propulsion & Power Generation Combined Diesel-Electric or Gas Propulsion System (CODLOG) 2 x Electric Motors – GE 1 x Gas Turbine – Rolls Royce MT 30 4 x Diesel Generators – Rolls Royce MTU Integrated Platform Management System – L3 Harris Integrated Underwater Warfare System Towed Low Frequency Active & Passive Sonar – Ultra Electronics Hull-Mounted Sonar – Ultra Electronics Sonar S2150 Towed Torpedo Countermeasures – Ultra Electronics SEA SENTOR S21700 Sonobuoy Processing System – General Dynamics Expendable Acoustic Countermeasures Specifications: Length: 151.4 metres Beam: 20.75 metres Speed: 27 knots Displacement: 7,800 tonnes Navigational Draught: ~8m Range: 7000 nautical miles Class: 15 ships Accommodations: ~204 Naval News comments: The displacement figure (7,800 tonnes) shown on the RCN document is probably the “full load” displacement. For comparison, the official figure for the Royal Navy's Type 26 frigate is 6,900 tons standard displacement while the official figure for the Royal Australian Navy's Hunter-class frigate is 8,800 tons at full load. In addition to the PDF unveiled last week, the Royal Canadian Navy Director of Naval Strategy, Captain Nucci, published an article on CSC in USNI's proceedings: “Canada is pursuing a single class of 15 surface combatants for the Royal Canadian Navy (RCN), unlike some of its allies who are building multiple classes of more specialized ships. A single variant Canadian Surface Combatant (CSC) is better than the project's original vision of two variants based on a common hull (the first a task group command/air-defense version, the other a more general-purpose/antisubmarine warfare version). While all naval force structure is essentially driven by national strategic defense and security interests, a single-class solution is based on three principal factors. First, it fits best for Canada's unique naval requirements shaped by its geography, modest fleet size, and the RCN's operational needs. Second, it optimizes effectiveness now and into the future, while responsibly seeking maximum cost efficiencies. Finally, it is an innovative approach that has only recently become both practical and advantageous because of recent technological developments, such as convergence and digitization.” Captain Christopher Nucci, Royal Canadian Navy, Proceedings, USNI, November 2020 https://www.navalnews.com/naval-news/2020/11/royal-canadian-navy-unveils-new-details-on-csc-frigates/

By: David Pugliese VICTORIA, British Columbia — The Royal Canadian Air Force plans to combine two training programs under a single, multibillion-dollar project, a move that will lead to incumbent contractors CAE and a consortium led by KF Aerospace facing off against a series of large firms. The government plans to issue a call for bids from defense companies next year for the Future Aircrew Training program, or FAcT. A draft bid package is expected to be released by the end of the year so prequalified firms can provide feedback to the Canadian Armed Forces. The contract is estimated to be worth at least CA$5 billion (U.S. $3.75 billion) and will provide training for Air Force pilots and crew for 20 years. Canada plans to award the contract in 2023. The government has already approved a list of firms that will be authorized to bid on FAcT, including Babcock Canada, Leonardo Canada, Lockheed Martin Canada and SkyAlyne Canada. SkyAlyne is a partnership between major Canadian defense firms CAE and KF Aerospace. Those two companies currently provide the two main aircrew training programs to the Air Force. Under FAcT, the number of pilots trained annually will slightly increase. The pilot production numbers for FAcT are expected to range from about 105 to a maximum of 120. In addition, air combat systems officers and airborne electronic sensor operators will also be trained under the program. Currently, that training is done in-house by the service. “We're very focused on getting this to contract,” Air Force Col. Pete Saunders, director of air simulation and training, said of FAcT. “In the end, the foundation of the Air Force is our ability to generate qualified aviators. That is what FAcT is all about.” Consolidation FAcT will combine two existing training programs. The first, NATO Flying Training in Canada, is provided by CAE's military aviation training division, which operates out of Moose Jaw, Saskatchewan. The program offers undergraduate and postgraduate pilot training in military-controlled airspace using training aircraft with advanced glass cockpits. That contact ends in 2023. The second program is the Contracted Flying Training and Support, which is run by a KF Aerospace-led consortium. Training is conducted out of the Southport Aerospace Centre near Portage la Prairie, Manitoba. The program “oversees the flying training and support services contract for the Primary and Basic Flying Training, Multi-Engine and Helicopter pilot training programs,” according to the government. That contract ends in 2027. Training for Royal Canadian Air Force pilots involves various fixed-wing aircraft — including the Grob 120A, CT-156 Harvard II, CT-155 Hawk and King Air C90 — as well as Bell 206 and 412 helicopters. Air combat systems officers and airborne electronic sensor operators are trained on CT-142 Dash-8 planes. Simulation is also extensively used in aircrew training. Saunders said the Air Force is being as flexible as possible to allow industry competitors to come up with what they believe will be the best solution for the service's training needs. “The way we're approaching this is that it is up to them to determine what training aids are required,” he explained. “They will determine what is the appropriate mix of simulation and live fly. They will look at the number and type of aircraft they require in order to meet their training solution.” However, officials are leaving no room for flexibility in the training's outcome. “What we are being prescriptive about is the standard that a graduate has to achieve,” Saunders said. The service has cooperated with the qualified bidders, consulting with them on components of what will be in the FAcT bid package — essentially the request for proposals. Saunders said he hopes to release the RFP by mid-2021. Apart from providing training and maintenance, the winning bidder must revitalize the aging training infrastructure, he added. The Air Force expects the construction of a new training center for air combat systems officers and airborne electronic sensor operators, as the current facility in Winnipeg, Manitoba, is quite old. Other new infrastructure, such as hangars, will also likely be built. Officials are requiring the winning supplier to invest in Canada equal to the value of the contract, but the government is also focused on a winning bid that emphasizes domestic firms playing a major role in training, simulation and in-service support. The government also has an ongoing competition for the acquisition of a new fighter jet to replace the Air Force's fleet of CF-18 aircraft. Canada isn't expected to announce the winning bid until at least 2022, with deliveries of aircraft scheduled for 2025. But Saunders said training for that future aircraft will be separate from FAcT, as the requirements are set by a different Air Force program office. https://www.defensenews.com/training-sim/2020/11/09/for-canada-multibillion-dollar-training-program-is-the-fact-of-the-matter/

NEWS PROVIDED BY Public Services and Procurement Canada Nov 06, 2020, 11:46 ET GATINEAU, QC, Nov. 6, 2020 /CNW/ - The Government of Canada is committed to providing the members of the Royal Canadian Navy (RCN) with safe and effective vessels required to protect Canadian sovereignty, while creating jobs and generating significant economic benefits for communities across Canada. Following an open and competitive process, the Honourable Anita Anand, Minister of Public Services and Procurement, and the Honourable Harjit S. Sajjan, Minister of National Defence, announced that the Government of Canada has awarded a contract to General Dynamics Mission Systems–Canada, from Ottawa, Ontario, for in-service support on 6 Halifax-class combat systems (HCCS). The HCCS are an integral component of the entire fleet of Halifax-class ships and will require in-service support until the arrival of the Canadian Surface Combatants. This initial contract is valued at approximately $182 million (including taxes) over 6 years, and will maintain up to 106 jobs. The Halifax-class frigates monitor and control Canadian waters, defend Canada's sovereignty, facilitate large-scale search and rescue activities, and provide emergency assistance when needed. Introduced into service in the 1990s, the Canadian-built Halifax-class frigates were recently modernized to remain operationally effective and relevant until the Canadian Surface Combatants enter into service. The Canadian Surface Combatants will replace the Halifax-class frigates and the retired Iroquois-class destroyers. With them, the RCN will have modern and capable ships to monitor and defend Canada's waters, to continue to contribute to international naval operations for decades to come and to rapidly deploy credible naval forces worldwide, on short notice. Quotes "The Government of Canada remains firmly committed to continue delivering the modern equipment that the members of the Royal Canadian Navy need when performing their important duty on Canada's waterways. Moreover, this in-service support is another example of how the government helps tomaintain our existing Royal Canadian Navy fleet, while creating jobs, and generating good economic opportunities for businesses and Canadians." The Honourable Anita Anand Minister of Public Services and Procurement "These systems will provide our women and men in uniform with the equipment they need to do the important job we ask of them. The six systems that will be maintained under this contract will help our sailors detect, track, and identify threats to their ship, which will give them greater protection as they conduct their mission in the service of our nation's interests. I am proud to see Canadian companies contributing to our Canadian military excellence at home and abroad." The Honourable Harjit S. Sajjan Minister of National Defence "Through this procurement, our Government is supporting economic growth as we navigate through the COVID-19 pandemic. This contract will lead to opportunities for Canadian suppliers, investments in skills development, training and research, and will generate export opportunities for Canadian businesses." The Honourable Navdeep Bains Minister of Innovation, Science and Industry Quick facts Through the National Shipbuilding Strategy, the Government of Canada successfully modernized the RCN's fleet of 12 Halifax class frigates to ensure they continue to meet evolving operational needs. As part of this modernization project, various combat systems onboard the frigates were retrofitted through the Halifax-Class Modernization/Frigate Life Extension Combat System Integration Design and Build contract. These include, but are not limited to, detection and search radars, navigation radars, fire control systems (targeting radars), and target identification systems. The initial contract is valued at approximately $182 million. Its amount may increase over the next 6 years as work progresses, depending on whether more maintenance is required. The total value for up to 12 years will be determined if and when options to extend the contract are exercised. The Industrial and Technological Benefits Policy, including the Value Proposition, applies to this procurement. The frigates operate with and integrate into the United Nations, the North Atlantic Treaty Organization and coalitions of allied states in support of international peace and security operations. In July and August 2019, Irving Shipbuilding Inc., Seaspan Victoria Shipyards Limited, and Chantier Davie were each awarded a $500-million contract to carry out maintenance work on the first group of Canada's Halifax-class frigates. Associated links Link to Buy and sell Halifax-class Modernization/Frigate Life Extension Halifax-class frigates: Maintaining Canada's federal fleet of combat vessels Industrial and technological benefits Follow us on Twitter Follow us on Facebook SOURCE Public Services and Procurement Canada For further information: Cecely Roy, Press Secretary, Office of the Honourable Anita Anand, 343-549-7293, cecely.roy@canada.ca ; Media Relations, Public Services and Procurement Canada, 819-420-5501, media@pwgsc-tpsgc.gc.ca Related Links www.tpsgc-pwgsc.gc.ca https://www.newswire.ca/news-releases/government-of-canada-awards-contract-for-in-service-support-for-halifax-class-combat-systems-844143601.html

Naval News November 2020 Navy Forces Maritime Defense Industry POSTED ON FRIDAY, 06 NOVEMBER 2020 17:57 According to a Tweet published by NavyLookout on November 6, 2020, the MBDA Sea Ceptor air defense missile system has been selected for the Canadian Surface Combatant ships. Canadian Navy plans to acquire 15 ships to replace both the retired Iroquois-class Destroyers and the Halifax-class frigates, with an estimated cost of $56-60 billion. Canada's defence policy, “Strong, Secure, Engaged” (SSE), has committed to investing in 15 Canadian Surface Combatant (CSC) ships. These ships will be Canada's major surface component of maritime combat power. To recapitalize the Royal Canadian Navy's surface combatant fleet by replacing and updating the capabilities found in both the recently retired Iroquois-class destroyers and the multi-role Halifax-class frigates and provide the necessary ammunition, training, support, and infrastructure. The new Canadian Surface Combatant (CSC) will ensure that Canada can continue to monitor and defend its waters and make significant contributions to international naval operations. The Canadian Surface Combatant contract was signed on 7 February 2019. Lockheed Martin Canada was selected by Irving Shipbuilding and the Government of Canada for the design contract for Canada's new fleet of surface combatants. The ship will be based on the Type 26 frigate proposed by Lockheed Martin Canada and BAE Systems. The Canadian Surface Combatant will have a length of 492 ft (150 m) and a displacement of 8,000. The ship will feature advanced anti-submarine warfare capabilities. She will be armed with a 24-cell Mk 41 VLS (Vertical Launch System) for Tomahawk cruise missiles and other long-range strike weapons, a 48-cell silo for Sea Ceptor air defense missiles and a 5-inch naval gun. The flight deck will be able to operate a CH-47 Chinook-sized helicopters. The Sea Ceptor is new generation of ship-based, all-weather, air defence missile system developed and designed by MBDA. The Weapon System has the capability to intercept and thereby neutralize the full range of current and future threats including combat aircraft and the new generation of supersonic anti-ship missiles. Capable of multiple channels of fire, the system will also counter saturation attacks. Sea Ceptor will operate from the SYLVER and Mk41 launchers using a quad-pack configuration, various flexible canister configurations are also available. The Soft Vertical Launch technology reduces system mass and eases installation. The missile has a maximum firing range of 25 km. https://navyrecognition.com/index.php/news/defence-news/2020/november/9237-mbda-sea-ceptor-air-defense-missile-system-selected-for-canadian-navy-surface-combatant-ships.html