A failure detection and isolation philosophy applicable to multiple off-the-shelf gimbaled IMUs are discussed. The equations developed are implemented and evaluated with actual shuttle trajectory simulations. The results of these simulations are presented for both powered and unpowered flight phases and at operational levels of four, three, and two IMUs. A multiple system checkout philosophy is developed and simulation results presented. The final task develops a laboratory test plan and defines the hardware and software requirements to implement an actual multiple system and evaluate the interim study results for space shuttle application
A system analysis of the shuttle orbiter baseline system management (SM) computer function is perfor...
Results are presented of systems analyses of the avionics software of the space shuttle orbiter
The shuttle system of interest in this paper is the shuttle's data processing system (DPS). The DPS ...
Operating procedures for this redundant system are described. A test plan is developed with two obje...
Results of an investigation of velocity failure detection and isolation for 3 inertial measuring uni...
Candidate designs and their software implementation are presented for the Orbital Maneuvering System...
The challenge of providing redundancy management (RM) and fault tolerance to meet the Shuttle Progra...
The background of the shuttle avionics system design and the unique drivers associated with the redu...
Development of onboard checkout equipment and performance monitoring capability for space shuttles -...
An analysis was conducted of the space shuttle propulsion systems to define the onboard checkout and...
The current baseline method and software implementation of the space shuttle reaction control subsys...
Characteristics of Space shuttle data management system for data transmission and service for avioni...
The necessity of providing highly redundant spacecraft in the shuttle era was evaluated. Environment...
Criteria and concepts for onboard checkout and monitoring system for space shuttle propulsion system...
The Space Shuttle avionics system, which was conceived in the early 1970's and became operational in...
A system analysis of the shuttle orbiter baseline system management (SM) computer function is perfor...
Results are presented of systems analyses of the avionics software of the space shuttle orbiter
The shuttle system of interest in this paper is the shuttle's data processing system (DPS). The DPS ...
Operating procedures for this redundant system are described. A test plan is developed with two obje...
Results of an investigation of velocity failure detection and isolation for 3 inertial measuring uni...
Candidate designs and their software implementation are presented for the Orbital Maneuvering System...
The challenge of providing redundancy management (RM) and fault tolerance to meet the Shuttle Progra...
The background of the shuttle avionics system design and the unique drivers associated with the redu...
Development of onboard checkout equipment and performance monitoring capability for space shuttles -...
An analysis was conducted of the space shuttle propulsion systems to define the onboard checkout and...
The current baseline method and software implementation of the space shuttle reaction control subsys...
Characteristics of Space shuttle data management system for data transmission and service for avioni...
The necessity of providing highly redundant spacecraft in the shuttle era was evaluated. Environment...
Criteria and concepts for onboard checkout and monitoring system for space shuttle propulsion system...
The Space Shuttle avionics system, which was conceived in the early 1970's and became operational in...
A system analysis of the shuttle orbiter baseline system management (SM) computer function is perfor...
Results are presented of systems analyses of the avionics software of the space shuttle orbiter
The shuttle system of interest in this paper is the shuttle's data processing system (DPS). The DPS ...