Radiometer
Revision as of 09:09, 30 October 2018 by Robert Howie (talk | contribs)
Requirements
- Sensitive to fireballs (mag -4) with a SNR of at least 10dB
- Will provide calibrated brightness in apparent magnitude without observations from other sensors or absolute magnitude with trajectory data
- Bandwidth from DC to at least 1kHz, but ideally capable of more
- Low power (able to add to a DFNEXT observatory without changing power system)
- Less than $1000 per station
- Able to be used by a wide variety of users as standalone instruments and add-ons for fireball cameras
- Absolute timing precision that makes sense relative to the sample rate and no worse than the DFN observatories
Resulting Capabilities
<Stuart please fill in>
Milestones
| No. | Milestone | Date | Responsibility | Achieved? |
|---|---|---|---|---|
| 1 | Prototype with USB based communication deployed | 16 November 2018 | Robert & Stuart | |
| 2 | X Prototypes deployed and gathering data | 30 November 2018 | Robert & Stuart | |
| 3 | Working radiometer PC software | 14 December 2018 | Stuart | |
| 4 | Data description implemented in PC software | 25 January 2019 | Robert | |
| 5 | First draft of paper without data | 31 January 2019 | Stuart | |
| 6 | Data for paper | 28 February 2019 | Stuart | |
| 7 | Submit paper to journal | 31 March 2019 | Stuart |
Paper Plan
Authors: Robert, Stuart, Hadrien or Stuart, Robert, Hadrien
- Abstract
- Introduction
- Background
- Objective
- Motivation
- Approach
- Prior Solutions
- MORP
- Prairie
- Czech
- Low cost
- Radiometer
- Requirements
- Concept Design
- Design Evolution
- Problems
- Results
- Sensitivity
- SNR
- Spectrum
- Bandwidth
- Cost
- DATA
- Availability/open source?
- Conclusions
- Future Work
- Multispectral
- Cubesat
- Future Work
