Senior Design Presentation 2014
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Transcript of Senior Design Presentation 2014
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Mobile Satellite Communication Station
Presenter’s Name: Alex Mulcahy, Andrew Clavijo, Paulo Borges, Michael Kunis, Javier Aguera, Kristopher SanfordPresenter’s Title: Arial Narrow 20 pt.
SCHOOL OF ENGINEERINGwww.scu.edu
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Road Map
Description System purpose Subsystems
– Description– Requirements– Design and Process– Testing
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SYSTEM PURPOSE
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Background
Robotics Systems Lab Nano-Satellite Operation – NASA nano-satellites
Low cost Short development time Test new technologies Educational institution involvement
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Robotics System Laboratory
Operate nano-satellites– S-band radio communication– Download
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Robotics Systems Lab (RSL)
RSL Ground Station at SCU– Single point of communication– Static facility
Early orbit operations– Increase number of satellite contacts– Assist with satellite de-confliction
Multiple satellite accommodation– Failure of facility *** change possibly ***
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The Project
Mobile Satellite Communication Station
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SYSTEM DESCRIPTION
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System Description
Mobile Satellite Communication Station– Support RSL mission operations– Allow coverage based on satellite trajectory– ***add***
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System Description
*** add diagram of trailer and parts ***
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System DescriptionDetailed Component Block Diagram
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System Description
Design Goals– High Mobility – Operate S-band for nano-satellites– Auto-calibration system– Software defined beacon radio capabilities
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S-BAND ANTENNA
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S-BAND : Description
Main method of satellite communication MHX 2420 Radio
– 2.4000-2.4835GHz frequency band
DHP 2.4 meter Aluminum Dish – 4 panel dish
SPID RAS rotor– 360 degrees azimuth range– 90 degrees elevation range
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S-BAND : Requirements
Requirement Design Target Units
Dish Dissemble Time 24 hr
Dish Assemble Time 24 hr
Support Structure Weight 50 kg
Collapsed Volume 1.575 m3
Antenna Gain ***is this right** 26.2 dB
Personnel Required 2 Person(s)
Link Margin at 10° elevation ***add*** dB
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S-BAND : Design
Support Structure
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S-BAND : Design
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S-BAND : Design
Diameter Frequency Pointing Error Req Eb/No Noise Temp3 meter 2.4 GHz 0.5 degrees 13.5 dB-Hz 440 K
2.4 meter 2.4 Ghz 1 degree 13.5 dB-Hz 440 K
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S-BAND : Design
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S-BAND : Design
Eb/ No - ratio of received energy-per-bit to noise density
P - transmitter power
Ll - transmitter-to-antenna line loss
Gt - transmit antenna gain
Ls - propogation path length between transmitter and reciever
La - a function of factors such as rainfall density
Gr - receive antenna gain k - Boltzmann constant
Ts - system noise temperature R - data rate
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S-BAND : Design
3 Meter Dish Uplink
Elevation (degrees) Link Margin (dB)0 7.7
10 11.5
25 15.9
45 19.5
90 22.3
2.4 Meter Dish Uplink
Elevation (degrees) Link Margin (dB)0 5.2
10 9.0
25 13.4
45 17
90 19.8
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S-BAND : Design
3 Meter Dish Downlink 2.4 Meter Dish Downlink
Elevation (degrees) Link Margin (dB)0 -2.0
2.5 0.010 1.8
45 9.9
90 12.6
Elevation (degrees) Link Margin (dB)0 0.5
2.5 1.510 4.3
45 12.4
90 15.1
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S-BAND : Design
Support Structure
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S-BAND : Design
Support Structure
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S-BAND : Testing
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SOFTWARE DEFINED RADIO (SDR)
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Interoperability: communicate with multiple radiosEfficient use of resources: it can adapt the waveform to maximize a key metric
Cognitive Radio: Increase the available spectrum
Reduced obsolescence: load software remotely
It costs about US $ 1,000
Why SDR?
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Replace existent HAM Radio.
Implement Doppler Shift compensation given geolocation.
Compact to fit the Recreational Vehicle.
Maximum of 10 minutes to get the system up and running.
Have at least a 80 % rate of decoded packets.
Be able to record passes.
Multiple satellite accommodation.
Develop user-friendly GUI and stable software.
Multiple satellite accommodation
SDR Requirements
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SDR Basic Functionality
Hardware (B200) Software
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Hardware Features
• The first fully integrated USRP device with continuous RF coverage
from 70 MHz – 6 GHz.
• Full duplex operation with up to 56 MHz of real time bandwidth
(61.44MS/s quadrature).
• Fast and convenient bus-powered connectivity using SuperSpeed USB
3.0.
• GNURadio and OpenBTS support through the open-source USRP
Hardware Driver™ (UHD)
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Coding Strategy
GNURadio Signal processing blocks connected to each other (just like Simulink) Open source C++ and Python infrastructures are generated automatically Possible to generate a GUI. One-way handshaking: pull or push data through blocks.
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System Design
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GUI Features
Waterfall Display / Spectrogram Frequency Spectrum & Constellation Display Time Domain Display Real Time AX.25/APRS Packet Viewer On-the-fly manual adjustments:
– Base frequency– Frequency offset– Filter window type– Visualization settings
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How the data is stored?
Flat File (text file) TCP/ IP Connection Web Server Mobile iOS Compatibility
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Web Server
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iOS Application
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AUTO-CALIBRATION
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AUTO-CALIBRATION : Description
Required to operate on uneven ground Software calculates for specific reference frame Accounts for yaw, pitch, and roll of vehicle
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AUTO-CALIBRATION : Description
Required to operate on uneven ground Software calculates for specific reference frame Accounts for Yaw, pitch, and roll of vehicle Provides GPS coordinates for pass time generation
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AUTO-CALIBRATION : Description
SCU Station Operations Mobile Ground Station Operation
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AUTO-CALIBRATION : Requirements
Pointing accuracy– Less than 1° of error
Information accessible by all subsystems ***autonomous?*** ***add***
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AUTO-CALIBRATION : Design
Satellite Toolkit (STK)– Orbit propagation– Generates azimuth, elevation and range
APM 2.6 ArduPilot Sensor Package– Magnetometers, Compass, and GPS– Wireless communication
Matlab– Creates rotation matrix from sensor values– Corrects STK frame using rotation matrix
MySQL Database
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AUTO-CALIBRATION : Design
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AUTO-CALIBRATION : Design
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AUTO-CALIBRATION : Design
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AUTO-CALIBRATION : Design
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AUTO-CALIBRATION : Design
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AUTO-CALIBRATION : Testing
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Future Development?
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Pictures needed Trailer Dish/mast Assembly/disassembly Block diagram SDR Block diagram entire system Block diagram of auto cal Auto cal animation Assembly disassembly animation Stress analysis
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Pictures needed Cont.
Software architecture diagram
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Description
Block diagram System Responsibilities
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Requirements
List requirements List which have been achieved/not achieved
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Design
Schematics Design specifics
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Testing
Testing methods Results Future testing
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REQUIREMENT FOR BEFORE THE SOLUTION Az tracking rates link Setup time
– Based on mobile requirements
El tracking rates Mobile requirement
– Travel distance
Support crew (pick tralier accordingly)– 2-4 people for 2-4 weeks– Travel
Show ability to increase time with spacecraft– Also dictated by mission requirement