If you are used to right clicking on a Device in My Devices to get a menu of options for connecting to your device, then this functionality has been moved to the Actions column in the current version of IoTCoreDashboard.
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This article covers using a Raspberry Pi running a RS4 version of IoT Core as the SurfPad, withe an Arduino devices as the Remote app. Connectivity for this is via Bluetooth..
Windows 10 IoTCore, as implemented on the Raspberry Pi 2 (RPI2) initially came with no WiFi or Bluetooth (BT) connectivity. These were then added as USB dongles but with a limited listed of hardware that worked. RPI3 has built in WiFi and BT. What is the state of play with IoTCore connectivity with the RPI now? Are there any issues?
My Azure watering system has been running for almost seven month now, after a long period of analysis I got all elements stable early january 2018.
The Azure data recorded since then shows the following behavior:
The top graph indicates watering time in value of 100ms, big bars correspond to manual watering.
Bottom graph shows daily measurement for three pots (Red, Green, Blue), plus local temperature (Orange).
We can draw some conclusions from this graph:
1 - Plants don't need much water in winter...
2 - Humidity measurement is definitely correlated to Temperature (red pot got frozen in march)
3 - Each pot has a specific behavior, and therefore needs a special algorithm
It is now worth pushing this data to Azure Machine Learning to draw the watering laws - before summer !!
Some musings about connecting the remote device to the UI-UWP app.
As part of a series of articles on a set of projects targeted at using a Windows Surface device as the presentation layer for a RPI or Arduino device, this article views the apps as state machines and documents the app states coupling through message passing between them.
In the previous articles in this series, a UWP app was developed as an array of XAML buttons that acts as the UI for an app running on a remote embedded or IoT device. Once connected the remote app sends a configuration for the UI as a Json string. Connectivity between the UWP and remote apps over Bluetooth and USB Serial has been covered. In this article connectivity over network sockets is covered. The article includes 101 on TCPIP Network Sockets for UWP and Arduino.
I ordered a bunch of ESP8266 modules in November and I have been developing applications since then with the available environments:
1 - Arduino IDE
2 - MicroPython
3 - Native SDK
Arduino IDE is great because it allowed me to re-use the code I wrote to access Azure through REST for my Azure Watering System.
Having both WiFi and a low power MCU I decided to build a Wireless station to monitor Humidity and Temperature and report to Azure.
Several SSIDs may be included in the program, therefore this monitoring device may be used inside and in the surroundings of my home - connected through home WiFi, or anywhere if I connect through my 3G+ phone.
The actual challenge for a Wireless station is to be REALLY wireless, this means running on battery. I used a 400MAh 1S LiPo I had in stock to see how long it would run between recharge.
The actual setup is as follows:
This includes more than the ESP8266 and DHT11 shield (in the back) and Battery (in front),
1 - The display and resistors are used to measu ...
This article reworks the previous few articles that use BT Serial and the connectivity so that USB virtual serial is used for communication. It covers in detail USB Serial connectivity between a UWP app and an Arduino devices as well as with a Windows 10 IoT-Core device (eg RPI).
The second article in this series covered development of a BT enabled Arduino Sketch that send its required UI to the UWP app as two json text strings. Also when the app is configured, the UWP app can send the UI key presses as encoded characters. This article covers how to implement same as a Windows 10 IoT-Core app that can run on a RPI.