Is Cambridge's Draper Laboratory Developing Weapons For Trump's War Machine?

Most people who live in Cambridge, Massachusetts don’t think that weapons technology development and “precision targeting”-related work for the Trump administration’s Pentagon war machine should be done in the “People’s Republic of Cambridge” in 2017. Yet in the “Warmakers’ Republic of Cambridge,” near MIT, Draper Laboratory is doing weapons technology development and “precision” targeting”-related work for the Pentagon’s Missile Defense Agency—while Trump and his Secretary of Defense, former General Dynamics board member, James Mattis, threaten to issue orders for a war against people in North Korea. As a Sept. 7, 2017 Draper Laboratory press release, titled “Draper Awarded $36.M for Guidance, Navigation & Control Technology,” stated:

“The U.S. Missile Defense Agency has awarded Draper a $36.9 million contract to perform technical and analytical services in support of the Agency’s efforts to evaluate, maturate, integrate and test guidance, navigation and control technologies.

“Under the contract, Draper will focus its work on sensors, modeling and simulation, radiation hardening, survivability, precision targeting and missile avionics development. The work will primarily be performed in Huntsville, Alabama and Cambridge, Massachusetts….”

According to the Pentagon’s Missile Defense Agency website, “North Korea has expanded the size and sophistication of its ballistic missile forces — from close-range ballistic missiles to ICBMs — and  has conducted an unprecedented level of nuclear tests and ballistic missile launches since 2016,” but “Missile defenses can provide a permanent presence in a region and discourage adversaries…”

In the “Warmakers’ Republic of Cambridge,” nuclear war weapons technology development work, for the Trump administration’s and UK Tory government’s nuclear-armed missile-launching Trident submarines, is also being done in 2017 at Draper Laboratory. As Trump and Mattis’s Department of Defense noted in a Jan. 26, 2017 press release, “Charles Stark Draper Laboratory Inc. is being awarded a $53,530,167 million fixed-price-incentive, cost-plus-incentive-fee contract for the Trident (D5) MK 6 guidance system production," and the $53.5 million nuclear war preparation contract “includes failure verification, test, repair and recertification of inertial measurement units, electronic assemblies, and electronic modules." According to a Jan. 27, 2017 Sputnik news article:

“The Trident D-5 is a three-stage, solid-fueled submarine-launched intercontinental-range ballistic missile…It is…deployed on the US Navy's Ohio and newer Columbia class nuclear missile submarines.

“Work will be performed in the US states of Minnesota, Florida and Massachusetts…US Navy funds in the amount of $45,663,167 million and UK funds of $7,867,000 are being released for the award….”

Draper Laboratory is also doing U.S. Army weapons technology development work in Cambridge for the Trump administration’s Pentagon war machine in 2017. As a March 7, 2017 Draper Laboratory website press release, titled “Draper Joins Teams Awarded U.S. Army Contract for Defense of Space, Missile, Ground and High Altitude,” noted:

“…Draper plans to help…provide rapid response to immediate warfighter requirements to the U.S. Army. Draper has been selected to join several teams of defense contractors that will design, develop, demonstrate and integrate products and systems focused on the development of space, high altitude and missile defense and ground system capabilities, enabling warfighters to effectively support their mission….Draper’s contribution will be in support of the U.S. Army Space and Missile Defense Command/ Army Forces Strategic Command’s (USASMDC/ARSTRAT) Design, Development, Demonstration and Integration, or D3I, Domain 1 program….Under the D3I Domain 1 contract, Draper brings capabilities to the contract teams in mission-critical areas including space systems, integrated air and missile defense, avionics, surveillance, reconnaissance and guidance, navigation and control (GN&C). Draper’s contract work will primarily be performed in Huntsville, Alabama and Cambridge, Massachusetts.

“Draper has supported the U.S. military’s strategic mission for more than 60 years. For the U.S. Army Research, Development and Engineering Command (RDECOM), Draper has developed image navigation for precision guidance of munitions even when GPS is not available. In addition to working with navigation systems, Draper has assisted the Army with projects including cybersecurity, technology protection and miniature cryptography for high stress environments. Draper and the Army have also worked together on a vision-aided navigation system that addresses current limitations, including cloud cover, which degrades the system’s ability to correlate vision sensor inputs with satellite imagery.”

A May 19, 2016 press release of the Picatinny Arsenal, New Jersey-based U.S. Army Armament Research, Development and Engineering Center’s website provided some additional details on the kind of weapons technology development work Draper Laboratory has been doing for RDECOM in recent years:

“Picatinny Arsenal engineers are among a group of researchers developing image navigation that would be used for precision guidance of munitions even when GPS is not available. The Armament Research, Development and Engineering Center, or ARDEC, is leading the development of image-navigation techniques for precision-guided munitions.

“With image navigation, a target can be identified on any type of digital map, which along with its metadata, can be loaded into the munition-guidance processor….Other partners involved in the research are from Draper Labs, Army Research Laboratory, Air Force Research Laboratory and the Aviation and Missile Research, Development, and Engineering Center. Using the reference image, along with the image the munition sees, the munition can determine where it is and what course corrections are needed to precisely guide it to the desired aim point.

"`This technology has the potential to be a game-changer for how precision munitions are employed in various contested environments on the future battlefield,’ said [Christopher] Stout [the ARDEC project officer for Affordable Precsion Technologies]…

“The developing technology is designed to mitigate the current reliance on GPS for precision munitions and achieve the potential to transition to future increments of Excalibur, High Explosive Guided Mortar, or HEGM, and other future precision munitions.

“Ensuring the survivability of cameras and optics under the `high G’ shock of gun shock launch is being done by using ARDEC's modeling and simulation capabilities...ARDEC and Draper Labs are working closely to develop this simulation environment capable of virtually assessing system performance across all terrain and weather scenarios…”