Chapter 1 Introduction to Embedded Internet of Things Technology 1. 1 Composition of Internet of Things 1.2 Wireless Sensor Network 1.2. 2 Wireless Sensor Network Structure 1 .2.2 Wireless Sensor Network .3 Embedded Internet of Things Control Technology 65438+ Large-scale WSNs Networking Technology with Mobile Nodes 1.3.2 Advantages of Intelligent M3 Core ZigBee Technology 1.5 Thinking and Practice Chapter 2: ARM Cortex? M3 Technology 2. 1 Overview 2.2 Core Module 2.2. 1 Internal Architecture 2.2.2 Register 2.3 Instruction System 2.3. 1 Instruction Table 2.3.2 Operand 2.3.3 Limitation of Using PC or SP 2.3.4 Composition of the Second Operand 2.3.4 Execute 2.3.9 instruction width selection 2.3. 10 memory access 438+05 jump and control instruction 2.3. 16 other instructions 2.4 software programming interface 2.5 thinking and exercises chapter 3 STM32W 108 architecture 3. 1 stm32w/kloc-0. 2 package and pin description 3.2. 1 package 3.2.2 pin description 3.3 thinking and practice chapter 4 STM32W 108 function module design 4. 1 function module overview 4.2 power module 4.2. 1 internal regulated power supply 4.2.2 external regulated power supply 4.2.2. Kloc-0/ Reset Principle 4.3.2 Reset Circuit Design 4.4 Clock Module 4.6.6550 Source 4.6.2 Basic Sleep Mode 4.6.3 Deep Sleep Option 4.7 Thinking and Practice Chapter 5 Memory and Radio Frequency Module 5. 1STM32W 108 Internal Storage Space 5.2 Flash Memory 5.3RAM Data Storage 5 08 RF module 5.4. 1 receiving module 5.4.2 transmitting module 5.4.3 integrated MAC module 5.4.4 random 6.2 universal IO configuration register 6.2. 1 port configuration register (low bit) (GPIO_PxCFGL) 6.2.2 port configuration register (high bit) (gpio 6.2.3 Port Input Data Register (GPIO_PxIN) 6.2.4 Port Output Data Register (GPIO_PxOUT) 6.2.5 Port Output Clear Register (GPIO_PxCLR) 6.2.6 Port Output Setting Register (GPIO_PxSET). 6.2.7 port wake-up monitoring register (GPIO_PxWAKE) 6.2.8GPIO wake-up filter register (gpio _ wakefilter) 6.2.9 interrupt selection register (GPIO_IRQxSEL) 6.2. 10GPIO interrupt configuration register (GPIO_INTCFGx). 6.2. 1 1GPIO interrupt flag register (INT_GPIOFLAG) 6.2. 12GPIO debug configuration register (GPIO_DBGCFG) 6.2. 13GPIO debug status register (GPIO_DBGSTAT). 6.3 Application Example Analysis 6.3. 1 Description of Development Environment and Hardware 6.3.2 Software Design and Planning 6.3.3LED Control Program Design 6.3.4 Test Program Writing 6.3.5 Test Results and Analysis 6.4 Thinking and Practice Chapter VII STM32W 108 Interrupt Mechanism 7. 1 Interrupt Control 7.654438.6566666.65436 7.2.3 Top Set Interrupt Suspend Register (int 7.2.4 Top Clear Suspend Interrupt Flag Register (INT_PENDCLR) 7.2.5 Top Active Interrupt Register (INT_ACTIVE) 7.2.6 Top Lost Interrupt Register (INT_MISS). 7.2.7 Auxiliary Fault Status Register (SCS_AFSR) 7.3 Application Case Analysis 7.3. 1 Development Environment and Hardware Description 7.3.2 Software Design and Planning 7.3.3 Interrupt Handler Program Design 7.3.4 Test Program Writing 7.3.5 Test Results and Analysis 7.4 Thinking and Practice Chapter 8 STM 32W/KLOC-. Kloc-0/.8+0. 1 Function Description 8. 1.2 Communication Configuration 8.2UART 8.2.6. 1.3 Reference Voltage 9. 1.4 Bias/Gain Correction 9. 1. .7 analog voltage input range 9. 1.8 sampling time 9. 1.9AD conversion 9.1.0 calibration 9.1.65438438+0.12 interrupt 9.2ADC 9.2.2ADC offset register (ADC_OFFSET) 9.2.3ADC gain register (ADC_GAIN) 9.2.4ADC DMA configuration register (ADC_DMACFG). 9.2.5ADC DMA status register (ADC_DMASTAT) 9.2.6ADC DMA start address register (ADC_DMABEG) 9.2.7ADC DMA buffer size register (ADC_DMASIZE) 9.2.8ADC DMA current address register (ADC_DMACUR) 9.2.9ADC DMA count register (ADC_DMACNT) 9.2. 10ADC interrupt flag register (int _ ADC flag) 9.2. 1 1ADC interrupt ZigBee protocol stack interface function10.1802 .. 802. 15.4 ZigBee protocol stack10.2 stm32w108/ZigBee protocol stack 10.3 protocol stack interface 10.4 startup protocol stack example analysis 10.4. 655438 No.65438. STM32W 108 Communication between two nodes 1 1. 1 Description of sample development environment1.2 Software design and planning1.3 Program design and implementation 650. .5 Thinking and Practice Chapter 65438 +02 Chapter 65438 +03 Multi-sensor environmental parameter monitoring example 13. 1 case development environment description 13.2 hardware circuit design 13.3 software design and planning 13.4 sensor data acquisition program design. Kloc-0/ Temperature Sensor 65 Temperature and Humidity Sensor 65. 465436536II Transplantation and Real-time Environmental Monitoring 14. 1 Development Environment Description 14.2 Software Design and Planning 14.3 Project Creation and File Addition 14.4 Related Source File Modification/ Chapter 65438 +05 Wireless Sensor Network Node Positioning Technology/KOOC-0/5./Determination of empirical formulas for calculating communication distance/KOOC-0/5.2 distance/Introduction of weighted positioning method of triangle centroid of KOOC-0/5.3n/Algorithm design of KOOC-0/5.4/KOOC-0/5.4. Experiment and result analysis 15.6. 1 empirical formula determination 15.6.2N weighted positioning experiments of the triangle centroid 15.7 thinking and exercise problems/chapter 16 point self-organization and mobile agent navigation technology 16 development environment and positioning method. 6. 2. 65538+038+06.2.8 Portable agent navigation design 16.3 program design and implementation 16.3. 1 large-scale ad hoc network program 16.3.2 mobile agent navigation program1.