IoT in 5 days 1.0

Name: IoT in 5 days
Rating: 5 (1 reviews)
Author: dafengstudio

21.4 MB / 0+ Downloads / Rating 5.0 - 1 reviews

IoT in 5 days, developed and published by dafengstudio, has released its latest version, 1.0, on 2020-10-03. This app falls under the Books & Reference category on the Google Play Store and has achieved over 1 installs. It currently holds an overall rating of 5.0, based on 1 reviews.

IoT in 5 days APK available on this page is compatible with all Android devices that meet the required specifications (Android 4.1+). It can also be installed on PC and Mac using an Android emulator such as Bluestacks, LDPlayer, and others.

App Screenshot

App Details

Package name: com.dafengstudio.iotinfivedays

Updated: 4 years ago

Developer Name: dafengstudio

Category: Books & Reference

New features: Show more

App Permissions: Show more

Installation Instructions

This article outlines two straightforward methods for installing IoT in 5 days on PC Windows and Mac.

Using BlueStacks

Download the APK/XAPK file from this page.
Install BlueStacks by visiting http://bluestacks.com.
Open the APK/XAPK file by double-clicking it. This action will launch BlueStacks and begin the application's installation. If the APK file does not automatically open with BlueStacks, right-click on it and select 'Open with...', then navigate to BlueStacks. Alternatively, you can drag-and-drop the APK file onto the BlueStacks home screen.
Wait a few seconds for the installation to complete. Once done, the installed app will appear on the BlueStacks home screen. Click its icon to start using the application.

Using LDPlayer

Download and install LDPlayer from https://www.ldplayer.net.
Drag the APK/XAPK file directly into LDPlayer.

If you have any questions, please don't hesitate to contact us.

Previous Versions

IoT in 5 days 1.0
2020-10-03 / 21.4 MB / Android 4.1+

About this app

Internet of Things (IoT) in 5 days
0:About the Release
1:About the Book
2:The Internet of Things (IoT)
3:1. Introduction to IPv6
15:2. Introduction to 6LoWPAN
22:3. Introduction to Contiki
50:4. Wireless with Contiki
80:5. CoAP, MQTT and HTTP
89:ACRONYMS
90:Bibliography
91:1. Internet-connected devices and the future evolution (Source: Cisco, 2011)
92:2. IoT Layered Architecture (Source: ITU-T)
93:3. IoT 3_Dimensional View (Source: [IoT])
94:1.1. Internet Protocol stack
95:1.2. Data flow in the protocol stack
96:1.3. IPv6 Header
97:1.4. IPv6 Extension headers
98:1.5. IPv6 address
99:1.6. Network and Interface ID
100:1.7. Packet exchange in IPv6
101:1.8. Simple IPv6 network
102:1.9. Wireshark logo
103:1.10. Wireshark Screenshot
104:1.11. Ethernet packet
105:1.12. IPv6 packet
106:1.13. Wireshark Filter
107:1.14. Wireshark Captured packets
108:1.15. Wireshark statistics
109:1.16. Wireshark charts
110:1.17. LAN Example
111:1.18. IPv6 Connectivity
112:1.19. Native IPv6
113:1.20. IPv4 tunneled IPv6
114:1.21. Local router does not support IPv6
115:1.22. Simplified Scenario
116:2.1. 6LoWPAN in the protocol stack
117:2.2. 6LoWPAN headers
118:2.3. EUI-64 derived IID
119:2.4. IPv6IID
120:2.5. Header compression
121:2.6. LoWPAN header
122:3.1. IoT in five Days Virtual Machine
123:3.2. Zolertia Zoul module and the RE-Mote platform
124:3.3. Zolertia Z1 mote
125:3.4. RE-Mote buttons and micro USB ports
126:3.5. Execution contexts: processes and interrupts
127:3.6. Analogue sensors
128:3.7. RE-Mote ADC pin-out
129:3.8. Available connectors in the RE-Mote
130:3.9. Pin assignment
131:3.10. Phidget 1142 Light sensor
132:3.11. Seeedstudio (Grove) Light sensor
133:3.12. RE-Mote ADC3 voltage divider for 5V analogue sensors
134:3.13. RE-Mote and Grove light sensor
135:3.14. RE-Mote 5-pin digital port (I2C and/or SPI)
136:3.15. SHT25 Temperature and humidity sensor
137:3.16. RE-Mote pin-out
138:4.1. IEEE 802.15.4 2.4 GHz regulation requirements (electronicdesign.com, 2013)
139:4.2. Thread layers and standards (Thread group, 2015)
140:4.3. Channel assignment
141:4.4. Link quality estimation process
142:4.5. Packet reception rate vs RSSI
143:4.6. Packet reception rate vs LQI
144:4.7. Contiki MAC stack
145:4.8. RPL in the protocol stack
146:4.9. Sniffer packet capture
147:4.10. Capture options
148:4.11. Interface settings
149:4.12. Captured frames
150:4.13. Wireshark filters
151:4.14. The border router
152:4.15. Border Router web service
153:4.16. Border Router web service with IPv6 global address
154:4.17. IPv6 online ping6
155:4.18. Wireshark capture of a node joining a RPL network
156:4.19. UDP client and server network architecture
157:4.20. UDP client and server MQTT application
158:4.21. UDP client and server IFTTT application
159:4.22. ICMPv6 ping messages
160:4.23. MyMQTT android app
161:4.24. IFTTT Maker channel
162:4.25. IFTTT Maker channel configuration values
163:4.26. IFTTT example recipe
164:5.1. MQTT and CoAP architectures
165:5.2. CoAP: Constrained Application Protocol
166:5.3. CoAP example
167:5.4. CoAP ping/pong
168:5.5. CoAP server resource discovery
169:5.6. SHT25 CoAP resource
170:5.7. CoAP server resource discovery
171:5.8. Control the LEDs on the CoAP server
172:5.9. Observe a CoAP resource
173:5.10. Wireshark capture of CoAP message traffic
174:5.11. MQTT (MQ Telemetry Transport)
175:5.12. MQTT publish/suscribe
176:5.13. MQTT Quality of Services, taken from Slideshare
177:5.14. Topics in MQTT, taken from HiveMQ
178:5.15. MQTT example
179:5.16. MQTT example state machine
180:5.17. Ubidots endpoint IPv4/IPv6 addresses
181:5.18. Ubidots API key
182:5.19. Ubidots Temperature and humidity variables
183:5.20. Ubidots dashboard
184:3.1. Pin mask example
185:4.1. CC2538 Transmission power recommended values (from SmartRF Studio)
186:4.2. CC2420 Transmission power (CC2420 datasheet, page 51)
187:4.3. CC1200 Transmission power recommended values (from SmartRF Studio)

New features

IoT in 5 days

App Permissions

Allows an application to read from external storage.
Allows an application to write to external storage.
Allows applications to open network sockets.
Allows applications to access information about networks.
Allows using PowerManager WakeLocks to keep processor from sleeping or screen from dimming.