The U.S. Army has awarded to Orolia subsidiary McMurdo a $33,986,800 contract to manufacture Personnel Recovery Devices (PRD) for warfighters. The contract is for indefinite-delivery/indefinite-quantity, with an estimated completion date of March 6, 2022.
The PRD is a dual-mode, MIL-SPEC locator beacon that will be integrated into the Army’s Personnel Recovery Support System (PRSS). It will be capable of transmitting both open and secure signals to alert and notify that a soldier has become isolated, missing, detained or captured.
The positioning device will optimize a successful rescue operation for soldiers in a distress situation through secure enhanced capabilities. It has been designed to meet military standards and specifications, and has improved accuracy, decreased size, weight and power (SWaP) requirements.
“We are extremely proud and honored to have been selected by the US Army as the provider of this critical positioning device for the safety of U.S. warfighters,” said Jean-Yves Courtois, CEO of Orolia. “Easy to incorporate into Personnel Recovery operations, the PRD is based on Orolia’s new rugged and small PNT platform dedicated to dismounted soldier Assured PNT applications.”
“This award, which follows the 2016 contract from the U.S. Coast Guard to produce 16,000 FastFind 220 personal locator beacons, is a testimony to Orolia’s world leadership in Resilient Positioning, Navigation and Timing,” he said.
The Personnel Recovery Support System Personnel Recovery Device contract was awarded by the U.S. Army Contracting Command, Aberdeen Proving Ground, Maryland, on behalf of the Army Air Warrior Product Management Office at Redstone Arsenal in Huntsville, Alabama.
Boeing has decided to not submit a proposal to build up to 22 GPS III satellites for the U.S. Air Force. The GPS III Follow On (GPS IIIF) program will supply additional upgraded satellites to replace ones now in the constellation.
“We have not put in a proposal for GPS III,” said Rico Attanasio, Boeing’s director of Department of Defense and civil navigation and communications programs, to Space News.
Lockheed has been the only producer of GPS III satellites, and is now under contract to build the first 10. Boeing built earlier versions of GPS satellites.
In February, the U.S. Air Force Space Command (AFSC) released its request for proposals (RFP) to build the 22 GPS III satellites, called the GPS III Follow-On Phase 2 contract. The estimated dollar value of the acquisition is $10 billion including all options.
Phase 2 is planned as a single, predominantly fixed-price incentive-type contract awarded via full and open competition for production of 22 GPS III satellites. Deadline for proposals is April 16. Construction is to begin in fiscal year 2019 (Oct. 1, 2018), with delivery of the first satellite in 2026.
Boeing thought it could compete based on “innovation, resilience [and] a new payload, but that wasn’t emphasized,” Attanasio told Space News. “It wasn’t a good fit for us.”
The U.S. Air Force has awarded a GPS III satellite launch contract to SpaceX. This is the third GPS III launch contract awarded; the previous two also were awarded to SpaceX.
SpaceX will receive a $290,594,130 firm-fixed-price contract for launch services to deliver three GPS III missions (1 base and 2 options) to the intended orbit using two Evolved Expendable Launch Vehicles (EELVs).
A SpaceX Falcon 9 rocket lifts off from Space Launch Complex 4E at Vandenberg Air Force Base, California, Jan. 14, 2017. (Photo: SpaceX)
The launch contract provides the government with a total launch solution for the GPS III mission, including launch vehicle production, mission integration, launch operations and spaceflight certification. The launches will take place from Cape Canaveral Air Force Station or Kennedy Space Center, Florida.
The GPS III missions are planned to launch between late 2019 and 2020.
“The three GPS III missions will deliver sustained, reliable GPS capabilities to America’s warfighters, our allies and civil users,” the U.S. Air Force said in a statement. GPS provides positioning, navigation and timing service to civil and military users worldwide.
In a second launch services contract, United Launch Alliance has been awarded a $351,839,510 firm-fixed-price contract for launch services to deliver Air Force Space Command (AFSPC)-8 and AFSPC-12 satellites to the intended orbit.
This is the fourth competition under the current Phase 1A procurement strategy. Both launch service contract awards strike a balance between meeting operational needs and lowering launch costs through reintroducing competition for National Security Space missions, according to Los Angeles Air Force Base, which made the announcement.
“The competitive award of these two EELV launch service contracts directly supports Space and Missile Systems Center’s mission of delivering resilient and affordable space capabilities to our nation while maintaining assured access to space,” said Lt. Gen. John F. Thompson, U.S. Air Force Program Executive Officer for Space and SMC commander.
SpaceX won two previous GPS III launch contracts, one awarded in March 2017 and one in April 2016.
The contract will be awarded to a single bidder, the Air Force Space Command stated in the announcement posted on FedBizOpps.gov. The estimated dollar value of the acquisition is $10 billion including all options.
Phase 2 is planned as a single, predominantly fixed-price incentive-type contract awarded via full and open competition for production of 22 GPS III satellites. Deadline for proposals is April 16. Construction is to begin in fiscal year 2019 (Oct. 1, 2018), with delivery of the first satellite in 2026.
For Phase 1, AFSC awarded in May 2016 three fixed-price contracts to Boeing Network and Space Systems, Northrop Grumman Aerospace Systems and Lockheed Martin Space Systems Company, which is building the first 10 GPS III satellites. According to the Air Force, “Phase 1 has determined that viable, low-risk, high-confidence sources exist to conduct a full and open competition for Phase 2, the production of 22 GPS III SVs starting in the FY19 timeframe.”
The U.S. Army is soliciting proposals for research, development, design and testing that directly supports battlefield technologies in the area of positioning, navigation and timing (PNT).
Broad Agency Announcement (BAA W56KGU-18-R-PN22) was issued by the U.S. Army’s Communications-Electronics Research, Development and Engineering Center (CERDEC) on Nov. 24 through FedBizOpps.gov.
CERDEC — based at the Aberdeen Proving Ground in Maryland — aims to discover technical approaches to improve and enhance current and future land warrior capabilities, flexibility and responsiveness in line with its strategic vision for enhancing warfighter capabilities to operate in both symmetric and unsymmetrical environments.
GPS-denied environments. “The goal is to support CERDECs Strategic Thrust for PNT by providing technical and operational capabilities that enables the soldier to continue their operations in hostile RF and GPS-denied environments,” reads the BAA. “Proposed technical approaches may apply to operations both before and after the cessation of hostilities.
“This announcement emphasizes approaches that address the very different challenges presented by urban fighting and dramatically enhance warfighter capabilities, for example, the ability to interact, maneuver and operate under a time constrained environment. These changes should generally result in lower casualties, lower collateral damage, and the effective use of combat power.
“The specific topics of interest revolve around the research and development of technologies may provide revolutionary improvements to the entire spectrum of PNT.”
Soldiers with 18th Military Police Brigade, assault opposing enemy threats during an Urban Operations training at the 7th Army Training Command’s Grafenwoehr Training Area, Germany, Oct. 20, 2017. (U.S. Army photo by Spc. Javon Spence)
CERDEC’s plan is to support multiple and potentially multiphase efforts that pursue the design, development, integration and demonstration of critical and enabling technology and system attributes pertaining to PNT. Proposed efforts will primarily be of service and material with aims at resolving technical barriers.
Proposals. Proposals submitted should range in scope from study and analysis type work with limited data and deliverables, to larger efforts for component developments, techniques and demonstrations with breadboard or prototype-style deliverables.
The contracts are expected to be cost-plus-fixed-fee, but can be negotiated.
Comtech Telecommunications Corp.‘s Command & Control Technologies group — part of Comtech’s Government Solutions segment — has been awarded contract modifications totaling $4.2 million.
The contract modifications are part of a five-year sustainment support contract for the U.S. Army’s Project Manager Mission Command (PM MC) Blue Force Tracking (BFT-1) program.
BFT-1 is a battle command, real-time situational awareness and control system. Under the five-year BFT-1 sustainment contract, Comtech performs engineering services, satellite network operations and program management.
A U.S. soldier preparing his Blue Force Tracker before departing Camp Victory, Iraq in 2005. (Photo: Petty Officer 1st Class Brien Aho, U.S. Navy)
Comtech continues to perform engineering services, satellite network operations and program management through a Firm Fixed Price (FFP) contract with Time & Materials (T&M) and Cost Reimbursement elements. The base performance period began April 15, 2017 and ends April 14, 2018, and the contract provides for four twelve-month option periods exercisable by GSA.
Of this amount, $3 million was received during its fourth quarter of fiscal 2017 and $1.2 million was received during its first quarter of fiscal 2018. This additional funding applies to the original award in April 2017, which today totals $7.7 million of the total potential value of the base year. These modifications fulfilled the government’s obligation to fund the Firm Fixed Price (FFP) portion of the contract.
“We are pleased that our Army customer recognizes the value of Comtech’s services,” said Fred Kornberg, president and CEO of Comtech Telecommunications Corp. “Comtech is committed to providing the Army and its soldiers with the highest level of support to enable them to complete their missions.”
Blue Force Tracking systems consist of a computer, used to display location information, a satellite terminal and satellite antenna, used to transmit location and other military data, a GPS receiver (to determine its own position), command-and-control software (to send and receive orders, and many other battlefield support functions) and mapping software, usually in the form of a geographic information system (GIS) that plots the BFT device on a map.
The system displays the location of the host vehicle on the computer’s terrain-map display, along with the locations of other platforms (friendly in blue, and enemy in red) in their respective locations.
BFT can also be used to send and receive text and imagery messages, and Blue Force Tracking has a mechanism for reporting the locations of enemy forces and other battlefield conditions (for example, the location of mine fields, battlefield obstacles or bridges that are damaged.)
The Command & Control Technologies group is a provider of mission-critical, highly-mobile C4ISR solutions. Comtech Telecommunications Corp. designs, develops, produces and markets innovative products, systems and services for advanced communications solutions. The Company sells products to a diverse customer base in the global commercial and government communications markets.
Public Services and Procurement Canada has awarded a contract to Ottawa-based Kongsberg Geospatial for an emergency operations airspace UAV tracking system.
Kongsberg Geospatial, an Ottawa-based developer of geospatial software technology, was awarded the contract to produce an Emergency Operations Airspace Management System (EOAMS) for evaluation by Canadian government agencies for safely managing drones at emergency and disaster scenes.
The contract was awarded via a competitive request for proposals under the Canadian Safety and Security Program in a project for Defense R&D Canada’s Centre for Security Science.
A small UAV is shown surveying the movement of a forest fire. The EOAMS would allow first responders to deploy drones at disaster scenes without endangering other emergency response aircraft or commercial flights. (Photo illustration: Kongsberg Geospatial)
The EOAMS is a portable display that interfaces with a variety of local sensors, including radar and Automatic Dependence Surveillance — Broadcast (ADS-B) receivers to give a clear picture of the airspace around disaster areas.
The system is intended to allow first responders to safely use unmanned aerial vehicles (UAVs) to survey the area, without risking collision with other emergency aircraft, including water bombers or rescue and police helicopters.
The system would also provide a warning to first responders if unapproved UAVs approach the area – providing a degree of protection against what is becoming an increasing problem with the proliferation of small consumer camera drones at fires and accident scenes.
The Government of Canada is expected to begin flight operations testing with the new Emergency Operations Airspace Management System in the summer of 2018.
“Securing and managing the airspace around disaster scenes or at big public events is becoming a real concern for all levels of government,” said Paige Cutland, IRIS program director for Kongsberg Geospatial. “Even if a drone operator isn’t acting with malicious intent, they have the potential to cause considerable harm if, for example, they fly into the path of an air ambulance. We need effective tools to help prevent this while also allowing legitimate UAV operations to be safely integrated into the emergency airspace.”
The new EOAMS will be based on Kongsberg Geospatial’s IRIS UAS airspace visualization system. The IRIS spatial awareness system evolved from technology originally developed for air traffic management display systems, and for supporting flight operations for military UAV systems like the U.S. Navy Triton Global Hawk.
The system has been developed for safely operating UAVs beyond visual line-of-sight (BVLOS), and has been adopted by the FAA ASSURE group for use in research toward developing regulations for commercial BVLOS operations in the United States.
“Kongsberg Geospatial has been pioneering innovation in airspace management for unmanned aircraft for over a decade,” said Ranald McGillis, president of Kongsberg Geospatial. “With the EOAMS project, we have the opportunity to introduce some really exciting capabilities in a portable system that will help first responders use UAVs in new and effective ways to support emergency response efforts.”
Northrop Grumman Corporation has been awarded a contract from the U.S. Air Force for technology maturation and risk reduction in support of next-generation navigation systems.
Under the $49 million contract from the Air Force Life Cycle Management Center, Northrop Grumman will provide the preliminary hardware and software architecture design for the Embedded GPS/Inertial Navigation System (INS)-Modernization, or EGI-M, technology. The modernized system is expected to be available for platform integration starting in 2019.
Northrop Grumman’s EGI-M will be based upon modular, open systems architecture to support the rapid insertion of new capabilities and adaptability based on unique platform requirements. Additionally, EGI-M will incorporate M-code-capable GPS receivers, which will help to ensure the secure transmission of accurate military signals.
“We are dedicated to ensuring mission success and the safety of warfighters by providing an EGI-M solution that offers robust, accurate and reliable positioning, navigation and timing [PNT] information, even in GPS-denied conditions,” said Dean Ebert, vice president, navigation and positioning systems business unit, Northrop Grumman Mission Systems.
EGI-M technology is designed for compatibility with current systems on legacy aircraft, allowing ease of integration and rapid adoption of new capabilities.
EGI-M will also comply with the Federal Aviation Administration’s NextGen air traffic control requirements that aircraft flying at higher altitudes be equipped with Automatic Dependence Surveillance-Broadcast (ADS‑B) Out by January 2020.
ADS-B Out transmits information about an aircraft’s altitude, speed and location to ground stations and to other equipped aircraft in the vicinity.
UK’s SSTL to build third batch of Galileo navigation payloads
News from the European Space Agency
Europe’s Galileo navigation constellation will gain an additional eight satellites, bringing it to completion, thanks to a contract signed at the Paris Air and Space Show.
The contract to build and test another eight Galileo satellites was awarded to a consortium led by prime contractor OHB, with Surrey Satellite Technology Ltd overseeing their navigation platforms.
This is the third such satellite signing: the first four In Orbit Validation satellites were built by a consortium led by Airbus Defence and Space, while production of the next 22 Full Operational Capability (FOC) satellites was led by OHB.
These new batch satellites are based on the already qualified design of the previous Galileo FOC satellites, except for changes on the unit level – such as improvements based on lessons learned and reacting to obsolescence of parts.
ESA’s Director of the Galileo Programme and Navigation-related Activities, Paul Verhoef, signed the contract with the CEO of OHB, Marco Fuchs and OHB Navigation Director Wolfgang Paetsch, in the presence of ESA Director General Jan Woerner and the EC’s Deputy Director-General for Internal Market, Industry, Entrepreneurship and SMEs, Pierre Delsaux.
“This procurement from OHB will enable the completion of the Galileo constellation and have reserves both in-orbit and on-ground,” said Director Verhoef. “This signing delivers the necessary infrastructure robustness that is essential for the provision of Galileo services worldwide.”
ESA signed the contract on behalf of the EU represented by the European Commission – Galileo’s owner. The Commission and ESA have a delegation agreement by which ESA acts as design and procurement agent on behalf of the Commission.
Signing Ceremony
Galileo is Europe’s own satellite navigation system, providing an array of positioning, navigation and timing services to Europe and the world.
With 18 satellites now in orbit, Galileo began Initial Services on Dec. 15, 2016, the first step towards full operational capability.
Further launches will continue to build the satellite constellation, which will gradually improve the system performance and availability worldwide. The launch by Ariane 5 of another four satellites is due to take place later this year.
The full Galileo constellation will consist of 24 operational satellites in three orbital planes plus orbital spares, intended to prevent any interruption in service.
These new eight satellites will provide the constellation with in-orbit and on-ground spares. ESA and the Commission are also in the process of developing an improved Galileo Second Generation for the next decade.
Galileo is now providing three service types, the availability of which will continue to be improved.
ESA’s Director of the Galileo Programme and Navigation-related Activities, Paul Verhoef (right), signing the contract of behalf of the European Commission, shakes hands with the CEO of OHB, Marco Fuchs beside OHB Navigation Director Wolfgang Paetsch, in the presence of ESA Director General Jan Woerner (in background) and the EC’s Deputy Director-General for Internal Market, Industry, Entrepreneurship and SMEs, Pierre Delsaux.
Galileo coverage
The Open Service is a free mass-market service for users with enabled chipsets in, for instance, smartphones and car navigation systems. Fully interoperable with GPS, combined coverage will deliver more accurate and reliable positioning for users.
Galileo’s Public Regulated Service is an encrypted, robust service for government-authorized users such as civil protection, fire brigades and the police.
The Search and Rescue Service is Europe’s contribution to the long-running Cospas–Sarsat international emergency beacon location. The time between someone locating a distress beacon when lost at sea or in the wilderness will be reduced from up to three hours to just 10 minutes, with its location determined to within 5 km, rather than the previous 10 km.
The public will begin benefiting as Galileo-capable devices enter the marketplace: 17 companies, representing more than 95% of global supply, now produce Galileo-ready chips.
SSTL continues Galileo work
“SSTL is delighted to have been selected to build the third batch of navigation payloads needed to complete the initial Galileo Constellation,” said Gary Lay, SSTL’s director of navigation. “I am confident that the OHB-SSTL solution offered the lowest risk and best value for money, and I believe that our selection as payload providers for the third time in succession demonstrates a high regard for our work.”
SSTL’s state-of-the-art Galileo FOC payload comprises different units including European sourced atomic clocks, navigation signal generators, high power traveling wave tube amplifiers and antennas. SSTL’s payload proposal for Batch 3 is for a recurrent build of the existing payload, with an evolution of the atomic clocks to incorporate advances made under the European GNSS Evolution Programme.
Fourteen of SSTL’s Galileo FOC navigation payloads are currently operational in orbit, with a further eight payloads already delivered to OHB for integration and test.
SSTL has been involved in the Galileo program since 2003 with the design and build of GIOVE-A, Galileo’s pathfinder mission. GIOVE-A was launched in 2005 and is still operational today, providing valuable data about the radiation environment in Medium Earth Orbit. An experimental GPS receiver on board GIOVE-A is also used to map out the antenna patterns of GPS satellites for use in planning navigation systems for future high altitude missions in Geostationary orbit, and beyond into deep space.
The European Global Navigation Satellite Systems Agency (GSA) has selected Eutelsat Communications for the development, integration and operation of the next-generation EGNOS payload on a future Eutelsat satellite.
Credit and copyright: GSA.
Eutelsat and GSA have concluded a long-term contract valued at €102 million covering the preparation and service provision phases for the EGNOS GEO-3 payload that will be hosted on the Eutelsat 5 West B satellite that is due for launch end of 2018.
The new payload marks a replenishment of current EGNOS capacity and is scheduled to start service in 2019 for a duration of 15 years.
With the addition of the EGNOS payload, Eutelsat is further optimizing the Eutelsat 5 West B satellite that was commissioned in October 2016 on a design-to-cost basis from Airbus Defence and Space and Orbital ATK. Airbus Defence and Space is building the satellite’s commercial Ku-band payload and the EGNOS payload while the platform is being manufactured by Orbital ATK.
The EGNOS GEO-3 payload on Eutelsat 5 West B will comprise two L-band transponders that will act as an augmentation, or overlay to GNSS messages. Data from GNSS measurements received by an interconnected ground network of positioning stations across Europe will be transferred to a central computing centre where differential corrections and integrity messages will be calculated and then broadcast by Eutelsat 5 West B to users.
The new payload will be the first step towards the deployment of the EGNOS next generation, EGNOS V3. This new generation of EGNOS will augment both Galileo and GPS and is planned to be qualified by 2022. EGNOS V3 will provide a higher level of performance and robustness than the current EGNOS legacy services, as required by the growing use and reliance on such services.
Established in 1977, Eutelsat Communications specializes in communications satellites. The company provides capacity on 39 satellites to clients that include broadcasters and broadcasting associations, pay-TV operators, video, data and internet service providers, enterprises and government agencies.
A SpaceX Falcon 9 stands ready for launch from Cape Canaveral Air Force Station, Fla. The Air Force awarded a second contract for GPS III Launch Services to SpaceX.
SpaceX has won a second contract from the U.S. Air Force for launch services to deliver a GPS III satellite to its intended orbit.
SpaceX was awarded the $96,500,490 firm-fixed-price contract over the United Launch Alliance. ULA — a joint venture of Lockheed Martin Space Systems and Boeing Defense, Space & Security — did not compete for the first GPS III launch contract. That contract, worth $82.7 million, is expected to orbit a GPS satellite aboard a Falcon 9 rocket in May 2018.
According to the contract announcement, SpaceX will provide launch vehicle production, mission integration, launch operations, spaceflight worthiness and mission unique activities for a GPS III mission. The contract is being overseen by the Air Force’s Space and Missile Systems Center (SMC), Los Angeles Air Force Base, California.
Work will be performed at Hawthorne, California; Cape Canaveral Air Force Station, Florida; and McGregor, Texas. It is expected to be complete by April 30, 2019.
“The competitive award of the GPS III Launch Services contract to SpaceX directly supports SMC’s mission of delivering resilient and affordable space capabilities to our nation,” said Lt. Gen. Samuel Greaves, leader of SMC.
The U.S. Army continues to expand the use of DT Research’s DT311 series of ultra-rugged tablets into additional army facilities to support training missions and other logistics. In 2016, the U.S. Army awarded DT Research three rugged tablet contracts.
DT Research is a designer and manufacturer of purpose-built computing solutions for vertical markets. The company is headquartered in Silicon Valley, California, with offices in China and Taiwan.
“We are honored to have the U.S. Army choose our rugged tablets again,” said Daw Tsai, president of DT Research. “The U.S. Army has strict requirements for advanced durability, powerful computing, robust connectivity, and fully integrated data capture options for the rugged tablets they use. We are proud to meet these high standards and deliver a specialized tool that will serve the U.S. Army well in their diverse environments.”
