Embedded Files
Missions
Missions
Advanced Intelligent AI Environmental Monitor
Advanced Intelligent AI Environmental Monitor
Coordinated Lower-Mid-Upper Atmosphere Observation
Coordinated Lower-Mid-Upper Atmosphere Observation
Mechanical Layout by Lai Kuang-Ming
Mechanical Layout by Lai Kuang-Ming
https://drive.google.com/drive/u/0/folders/1yQHg2izwKGn2lWAMBpS44OYZx9HZnw5p
CodeV traning course
CodeV traning course
https://drive.google.com/drive/u/0/folders/1Gx1IEkVt_qcdXCxpMe34ePZarz8a8y4Q
Courses
Courses
Sace Optics I planetary remote_sensing
Sace Optics I planetary remote_sensing
太空光學儀器設計 I
太空光學儀器設計 I
The course reviews the basic space optics and related radiation environment, focus on the hyperspectral imager.
Part I. Hyperspectral Satellites
• Introduction to Hyperspectral Satellites (9/18)
• Airborne Visible/Infrared Imaging Spectrometer (9/25)
• Application of Hyperspectral Satellites in Earth Observations (10/2)
• Mission Concept (10/9)
• Hyperspectral Satellites and System Design (10/16)
Part II. Physics, Sensors and Algorithm
• Remote sensing environment (10/23)
• Radiometry (10/30)
• Atmosphere absorption (11/6)
• Aerosol scattering (11/13)
• Spectral Properties of Materials (11/27)
Part III. Code V Lab
• Overview software and install CODE V (12/4 提早到9點)
• Build a simple optical system with optical design software (--)
• Stop and Pupils (--)
• Performance analyses [spherical aberration, coma, astigmatism(--)]
11. Oral Report (12/25)
Sace Optics II Laser communication
Sace Optics II Laser communication
太空光學儀器設計 II
太空光學儀器設計 II
The course reviews the basic space optics and related near-earth laser communications.
Part I. Background Knowledge
Near-Earth laser communications
System engineering and design drivers
Pointint, acquisition and tracking
Laser transmitters: coherent and direct detection
Flight optomechanical assembly
Coding and modulation for free-space optical communications
Photodetectors and receiver architectures
Atmospheric channel
Lab
Diffractive Optics Experiment
Digital circuit application
Digital circuit application
數位電路應用
數位電路應用
Part I. Background Knowledge
Digital systems and binary numbers
Boolean algebra and logic gates
Gate-level minimization
Combinational logic
Synchronous sequential circuits
Register and counters
Part II. Advanced applications
Libero introduction & examples
status machine
Datapath
Memory
Microcontroller application
Microcontroller application
微控制器應用
微控制器應用
The objective is to allow students to discover how the microcontroller monitor our environment. It will provide lectures and hands-on experiences of how an embedded system could be used to design your instruments for science purposes.
Introduction
1.Introduction to embedded system
2.Digital system
3.Structured_programming
4.Microcontroller architecture
5.MSP432 architecture
6.Development environment (CCS and Lab)
7.Embedded C language
Lab: 1.GPIO+LED+Buzzer+Button 2.Clock system+LPM mode
3.Serial port UART + Bluetooth 4.Timer 5.Comparator+ADC
6.Serial port SPI+I2C 7.SD card
Final project. Advanced microcontroller applications
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