JPL's Multimission Operations Systems Office (MOSO) provides a multimission facility at JPL for processing science instrument data from NASA's planetary missions. This facility, the Multimission Image Processing System (MIPS), is developed and maintained by MOSO to meet requirements that span the NASA family of planetary missions. Although the word 'image' appears in the title, MIPS is used to process instrument data from a variety of science instruments. This paper describes the design of a new system architecture now being implemented within the MIPS to support future planetary mission activities at significantly reduced operations and maintenance cost
Parallel system analysis, point to point communications, input-output schemes, and organizational op...
The Spitzer Telemetry Processing System (SirtfTlmProc) was designed to address objectives of JPL's M...
The Parallel Architectures for Planetary Exploration Requirements (PAPER) project is essentially res...
The Multimission Ground Data System (MGDS) at NASA's Jet Propulsion Laboratory has brought improveme...
The Operations Engineering Lab (OEL) at JPL has developed the multimission command system as part of...
This paper discusses commissioning of NASAs Magnetospheric MultiScale (MMS) Mission. The mission inc...
The Galileo Command and Data Subsystems (CDS) is described. The CDS takes advantage of microprocesso...
Instrument data systems consist of a microprocessor, 3K bytes of Read Only Memory and 3K bytes of Ra...
From a systems perspective, this paper examines the challenges of a single system to support multipl...
Simulation of on-board multiprocessor for long lived unmanned space satellite contro
Mission control is evolving quickly, driven by the requirements of new missions, and enabled by mode...
This is truly the era of 'faster-better-cheaper' at the National Aeronautics and Space Administratio...
The preliminary design of the Information Adaptive System is presented. The role of the microprocess...
As baselined, the Cassini Ground Data System (GDS) will be composed of Project specific and multimis...
The four Magnetospheric Multiscale (MMS) spacecraft will collect a combined volume of approximately ...
Parallel system analysis, point to point communications, input-output schemes, and organizational op...
The Spitzer Telemetry Processing System (SirtfTlmProc) was designed to address objectives of JPL's M...
The Parallel Architectures for Planetary Exploration Requirements (PAPER) project is essentially res...
The Multimission Ground Data System (MGDS) at NASA's Jet Propulsion Laboratory has brought improveme...
The Operations Engineering Lab (OEL) at JPL has developed the multimission command system as part of...
This paper discusses commissioning of NASAs Magnetospheric MultiScale (MMS) Mission. The mission inc...
The Galileo Command and Data Subsystems (CDS) is described. The CDS takes advantage of microprocesso...
Instrument data systems consist of a microprocessor, 3K bytes of Read Only Memory and 3K bytes of Ra...
From a systems perspective, this paper examines the challenges of a single system to support multipl...
Simulation of on-board multiprocessor for long lived unmanned space satellite contro
Mission control is evolving quickly, driven by the requirements of new missions, and enabled by mode...
This is truly the era of 'faster-better-cheaper' at the National Aeronautics and Space Administratio...
The preliminary design of the Information Adaptive System is presented. The role of the microprocess...
As baselined, the Cassini Ground Data System (GDS) will be composed of Project specific and multimis...
The four Magnetospheric Multiscale (MMS) spacecraft will collect a combined volume of approximately ...
Parallel system analysis, point to point communications, input-output schemes, and organizational op...
The Spitzer Telemetry Processing System (SirtfTlmProc) was designed to address objectives of JPL's M...
The Parallel Architectures for Planetary Exploration Requirements (PAPER) project is essentially res...