Science Closure and Enabling Technologies for Constellation Class Missions

Edited by: V. Angelopoulos and P. V. Panetta,

Published by:

Space Sciences Laboratory, University of California, Berkeley, and

NASA Goddard Space Flight Center, Greenbelt, Maryland.

At:

UC Berkeley, California, December 1, 1998.

Covers and preface:

Front (pdf, 810k): . . . Spine (pdf, 50k): . . . Key (pdf, 6k):

Preface (pdf, 49k): . . . Back (pdf, 10k):

Papers:

Major Outstanding Questions

Siscoe, Constellation Mission and the Next Leap in Magnetospheric Physics (pdf version, 162k).

Nagai, On the Possibility of Observing the Microphysics of Magnetic Reconnection (pdf version, 242k).

Sanchez, What Kind of Constraint Does the Problem of Global Geospace Circulation Impose on the Specification of a Spacecraft Constellation? (pdf version, 132k).

Mission Concepts

Angelopoulos, et al., Necessity and Feasibility of Equatorial Constellation (pdf version, 167k).

Delory, et al., A Constellation Pathfinder (pdf version, 293k).

Ergun, et al., Magnetospheric Constellation and Tomography Mission Concept (pdf version, 405k).

Fazakerley, et al., A Multi-Spacecraft Magnetospheric Monitoring Mission Study (pdf version, 408k).

Mitchell, et al., Multi-Point Magnetospheric Reconnaissance Imaging: Visualization of Ion Dynamics, Evolution, Origins and Structure (pdf version, 373k).

Petschek, et al., The Kilo-Satellite Constellation Concept (pdf version, 383k).

Russell, et al., The Geospace Magnetospheric Dynamics Mission (pdf version, 1220k).

Schwartz, et al., SWARM: A Fleet of Microsatellites to Explore the Magnetosphere (pdf version, 135k).

Stern, Science Tasks for "Profile" (pdf version, 298k).

Data Assimilation

Frey, et al., Tomographic Methods for Magnetospheric Applications (ps version, 151k).

Raeder and Angelopoulos, Using Global Simulations of the Magnetosphere for Multi-Satellite Mission Planning and Data Analysis (pdf version, 441k).

Tsyganenko, Toward Real-Time Magnetospheric Mapping Based on Multi-Probe Space Magnetometer Data (pdf version, 685k).

Supporting Technologies

Angelopoulos, et al., Tracking and Operations of Constellation Microspacecraft (pdf version, 311k).

Eyre, et al., MEMS Magnetic Sensor in Standard CMOS (pdf version, 689k).

Fleeter, Bitsy: A Minimum Cost Spacecraft for Nanosatellite Missions (pdf version, 214k).

Lee, et al., Mechanical Considerations of Release and Spin-up of Constellation Microspacecraft (pdf version, 1370k).

Panetta, et al., NASA/GSFC Nano-Satellite Technology Development (pdf version, 233k).

Paschalidis, Microelectronics Technologies Enabling New Generation Spacecraft and Instrumentation (MSWord version, 5589k.

Ritzau, et al., Solid State Detection of Low Energy Ions and Electrons for Constellation Missions (pdf version, 135k).

Stern, Planning the "Profile" Multiprobe Mission (pdf version, 268k).

Yuriev, et al., Antenna Subsystem Solution for Constellation Microspacecraft (pdf version, 360k).

Zanetti, et al., Miniature Magnetic Field Sensors Based on Xylophone Resonators (pdf version, 490K).

This page is maintained by Vassilis Angelopoulos
Please send comments/suggestions to:
vassilis@ssl.berkeley.edu
Created: 05/11/98