Opportunity
SAM #70RWMD26Q00000015
Sole Source Upgrade of MDDP Mobile Radiation Detection Systems to MURS 3.0
Buyer
DHS CWMD Acquisition Division
Posted
April 27, 2026
Respond By
May 01, 2026
Identifier
70RWMD26Q00000015
NAICS
334511
This notice announces DHS's intent to award a sole source contract for upgrading MDDP's mobile radiation detection systems to the MURS 3.0 platform. - Department of Homeland Security (DHS), Office of Procurement Operations, CWMD Acquisition Division is the procuring agency - Sole source procurement for the MURS 3.0 Mobile Radiation Detection System and associated upgrade services - MURS 3.0 system features: - Advanced mobile radiation detection, identification, and source localization - Day/night contextual imaging and internal navigation - Modular subsystems installed in 4x4 vehicles - Compliance with MIL-STD-910G Ground Mobile requirements - Includes neutron detectors and main processing nodes for neutron and gamma signal processing - Improved size, weight, power consumption, reliability, and modularity - No specific OEM or vendor is named in the notice - Opportunity includes both hardware (MURS 3.0 system) and upgrade/integration services - Place of performance includes Springfield, Kentucky; contracting office is in Washington, DC
Description
The objective of the MURS SLEP is to upgrade MDDP’s fleet of aging MURS systems to MURS 3.0. MURS 3.0 is an advanced mobile radiation detection, identification, and source localization system coupled with day/night contextual imaging and internal navigation subsystems discreetly installed in a 4x4 vehicle. The MURS assembly was designed to meet MIL-STD-910G Ground Mobile requirements for shock, vibration, and impact. The system offers urban threat detection, identification, and tracking with actionable information through high resolution contextual imagery and interactive urban maps. The MURS module consists of neutron detectors for L/R detection of neutron sources and the main processing nodes required to process signals from both the neutron and gamma detections. The 3.0 design also includes improved size, weight, power consumption, reliability, and modularity.