在LoRaWAN應用這門課程中,將帶領學生了解當前最當紅的物聯網技術與平台,並利用相關的開放源碼框架實作學習,使學生學習到符合目前與未來發展趨勢的基礎原理與相關的實作技術。從服務雲端化至物聯網軟體環境建置及應用實作,達到理論與實務兼備的教學目標。
利用系統實作,達到理論與實務兼備的教學目的。譬如:
1. 感測器工作原理與無線傳輸系統雛型之建立
2. 感測網路之建置
3. 物聯網服務平台之建置
4. 感測器資訊之蒐集、儲存與分析程序
5. LoRaWAN 校園網路 (LoRaWAN基地台 + LoRa 微型震動感應器+ LoRa 環境感應器集中器 sensor hub),
6. 開發智慧校園創新應用軟體APP,讓同學學習LoRaWAN長距離低功耗網路基礎知識以及累積智慧校園創新應用 APP 開發經驗,協助建置具創新服務應用的智慧校園。
7. 以 LoRaWAN 核心技術為基礎,物聯網概論為輔助,透過小型智慧溫室來使用LoRa 通訊模組進行雙向控制的實驗
8. 讓學生熟悉 LoRaWAN 的運作原理。
9. 帶領學生建置 LoRaWAN 校園網路 (LoRaWAN基地台 + LoRa 微型震動感應器+ LoRa 環境感應器集中器 sensor hub),
10. 開發智慧校園創新應用軟體 APP。
本教材各主題皆搭配一個或兩個實驗(實習)。實驗內容主要是研習教材提供之基本範例程式,並要求學生進行部分修改或加強以完成額外功能,藉以了解LoRaWAN長距離低功耗網路應用技術與物聯網服務平台之工作原理與應用方式。
In the LoRaWAN application course, students will be led to understand the most popular Internet of Things technologies and platforms, and use relevant open source frameworks to implement learning, so that students can learn the basic principles and related practical applications that are in line with current and future development trends. technology. From service cloudization to IoT software environment construction and application implementation, the teaching goal is to achieve both theory and practice.
Use systematic implementation to achieve the teaching purpose of both theory and practice. for example:
1. The working principle of the sensor and the establishment of the prototype of the wireless transmission system
2. Construction of sensor network
3. Construction of IoT service platform
4. Collection, storage and analysis procedures of sensor information
5. LoRaWAN campus network (LoRaWAN base station + LoRa micro vibration sensor + LoRa environmental sensor concentrator sensor hub),
6. Develop a smart campus innovative application software APP to allow students to learn the basic knowledge of LoRaWAN long-distance low-power network and accumulate smart campus innovative application APP development experience to help build a smart campus with innovative service applications.
7. Based on the core technology of LoRaWAN and assisted by the introduction of the Internet of Things, the LoRa communication module is used for two-way control experiments through a small smart greenhouse.
8. Familiarize students with the operating principles of LoRaWAN.
9. Lead students to build a LoRaWAN campus network (LoRaWAN base station + LoRa micro vibration sensor + LoRa environmental sensor concentrator sensor hub),
10. Develop innovative application software APP for smart campus.
Each topic in this textbook is paired with one or two experiments (practice). The experimental content is mainly to study the basic sample programs provided in the textbook, and requires students to make some modifications or enhancements to complete additional functions, so as to understand the working principles and application methods of LoRaWAN long-distance low-power network application technology and the Internet of Things service platform.
Beginning LoRa Radio Networks with Arduino: Build Long Range, Low Power Wireless IoT Networks Paperback – February 19, 2019
beginning Lora radio networks with Arduino: build long range, low power wireless IO T networks paperback – February 19, 2019
| 評分項目 Grading Method | 配分比例 Grading percentage | 說明 Description |
|---|---|---|
| 出席出席 Attend |
10 | |
| 期中考期中考 midterm exam |
20 | |
| 作業作業 Homework |
50 | |
| 期末報告期末報告 Final report |
20 |
