The Reliability & Maintainability Information System (REMIS) is a key component of the Air Force Depot Maintenance System. Ten years after the successful modernization of REMIS in 2004, the US Air Force reached back out to TSRI to modernize the rest of the system as well as take the C++ we already produced to Java. The project was delivered on time and under budget by almost half a million dollars.
The System Engineering and Sustainment Integrator system includes ground-based radars, space surveillance sensors, ground-based missile warning, and optical systems operated by United States Strategic Command and Air Force Space Command. Command and control for these radar systems was written in multiple legacy languages.
ITT Industries awarded a sole-source contract to The Software Revolution, Inc. (TSRI) for Documentation of the Radar Open Systems Architecture Systems (ROSA), a component of the Air Force Space Command’s Ballistic Missile Early Warning System (BMEWS).
The U.S. Air Force's Weapons System Cost Retrieval System (WSCRS), designation H036C, was written in COBOL and run on an Amdahl-5890 platform with a flat file data base. The system required modernization by the Wright-Patterson Mission System Group (MSG) to improve base support for the Air Force weapon financial systems.
The Reliability & Maintainability Information System (REMIS) is a key component of the Air Force Depot Maintenance System. REMIS consisted of 1.1 million lines of source code written in COBOL85, TAL and C. The system runs on a Tandem Symmetric Multiprocessor with NonStop SQL/MP DDL and a Tandem database.
The purpose of this effort was to assess the Core Automated Maintenance System (CAMS), a large high profile Air Force logistics system. This assessment was needed to provide comprehensive high-quality "As Is" functional analysis-level UML design documentation to support analysis of business processes and business rules in the system. The final deliverable was delivered on time, and consisted of over a million pages of HTML and Scalable Vector Graphic, with over a hundred million hyperlinks.
The U.S. Air Force's Weapons System Cost Retrieval System (WSCRS), designation H036C, was written in COBOL running on an Amdahl-5890 platform and using a flat file data base. The system required modernization by the Wright-Patterson Mission System Group (MSG) to improve base support for the Air Force weapon financial systems. TSRI transformed 100% of the WSCRS COBOL code into C++ and facilitated an error-free delivery to the customer several weeks ahead of schedule.
ITT Corporation awarded a sole-source contract to TSRI for modernization of the SENSOR Radar Calibration System (SRCS) of the Ballistic Missile Early System (BMEWS) under the Air Force’s System Engineering & Sustainment Integrator (SENSOR) program. This project involved the transformation of multiple source languages to modernized C++.
The System Engineering and Sustainment Integrator System includes ground-based radars, space surveillance sensors, ground-based missile warning, and optical systems operated by United States Strategic Command and Air Force Space Command. Command and control for these radar systems was written in multiple legacy languages, and needed transformation to modernized, refactored C++.
The MILSATCOM Program Office under the Command and Control System Consolidation (CCS-C) program required replacement of the Air Force Satellite Control Network Command and Control Segment (SCNCCS). This J73 JOVIAL system was modernized to provide satellite control capabilities in support of the Air Force Space Command MILSATCOM satellite programs, including MILSTAR, DSCS III, NATO IV, SKYNET 4, Advanced Wideband Gapfiller, and Advanced EHF.