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Technical Paper

An Environmental Sensor Technology Selection Process for Exploration

2005-07-11
2005-01-2872
In planning for Exploration missions and developing the required suite of environmental monitors, the difficulty lies in down-selecting a multitude of technology options to a few candidates with exceptional potential. Technology selection criteria include conventional analytical parameters (e.g., range, sensitivity, selectivity), operational factors (degree of automation, portability, required level of crew training, maintenance), logistical factors (size, mass, power, consumables, waste generation) and engineering factors such as complexity and reliability. Other more subtle considerations include crew interfaces, data readout and degree of autonomy from the ground control center. We anticipate that technology demonstrations designed toward these goals will be carried out on the International Space Station, the end result of which is a suite of techniques well positioned for deployment during Exploration missions.
Technical Paper

Education Payload Operations Kit C: A Miniature, Low ESM Hobby Garden for Space-Based Educational Activities

2007-07-09
2007-01-3067
The wonder of space exploration is a sure way to catch the attention of students of all ages, and space biology is one of many sciences critical to understanding the spaceflight environment. Many systems used in the past for space-to-classroom biology activities have required extensive crew time and material resources, making space-linked education logistically and financially difficult. The new Education Payload Operations Kit C (EPO Kit C) aims to overcome obstacles to space-linked education and outreach by dramatically reducing the resources required for educational activities in plant space biology that have a true spaceflight component. EPO Kit C is expected to be flown from STS-118 to the International Space Station in June 2007. NASA and several other organizations are currently planning an outreach program to complement the flight of EPO Kit C.
Technical Paper

Real-Time Executive Monitor (RTEM)

1994-10-01
942169
The use of redundant avionic architecture on modern aircraft for both Flight Control and Mission Management has intensified the requirements for Condition Monitoring of Critical Control and Computational functions. The Application of a REAL-TIME EXECUTIVE MODULE (RTEM) provides a core element of detection for departures from norm or nominal expected performance in such systems. The RTEM performs all Fault Tolerant operations and functions including Fault Tolerant Communication, Inter-Lane Control, Synchronization, Real-Time Task Scheduling, Data Voting, Message Error Checking, Error Detection and Reporting, Graceful Degradation, Dynamic System Reconfiguration and Application Interface Specifics.
Technical Paper

Optimization of Chamber-Grown Crops in Menu Planning

1998-07-13
981559
NASA-JSC is evaluating planetary mission scenarios where plants will provide the majority of the diet for the crew. The requirements of both plants and crew diet need to be integrated in the development of the final food system. Plant growth has limitations in type and quantity of crops to be produced while diets must meet palatability and nutritional requirements as well as limited processing labor, equipment and power. A plan is presented for the development of a food system based heavily on grown crops. Although the steps taken in the development are applicable to the design of any long duration flight food system. The process begins with the development of a food list, followed by preliminary menu design, nutritional analysis and finally menu testing.
Technical Paper

Simulation Study of Space Suit Thermal Control

2000-07-10
2000-01-2391
Automatic thermal comfort control for the minimum consumables PLSS is undertaken using several control approaches. Accuracy and performance of the strategies using feedforward, feedback, and gain scheduling are evaluated through simulation, highlighting their advantages and limitations. Implementation issues, consumable usage, and the provision for the extension of these control strategies to the cryogenic PLSS are addressed.
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