Bluetooth: Mesh sensor observer¶
The Bluetooth mesh sensor observer sample demonstrates how to set up a basic Bluetooth mesh Sensor Client model application that gets sensor data from one Sensor Server model. Four different sensor types are used to showcase different ways for the server to publish data. In addition, the samples demonstrate usage of both single-channel sensor types and sensor series types.
Note
This sample must be paired with Bluetooth: Mesh sensor to show any functionality. The observer has no sensor data, and is dependent on a mesh sensor to provide it.
Overview¶
This sample is split into the following source files:
A
main.c
file to handle initialization.One additional file for handling Bluetooth mesh models,
model_handler.c
.
The following Bluetooth mesh sensor types are used in this sample:
bt_mesh_sensor_present_dev_op_temp
- Published by the server according to its publishing period.bt_mesh_sensor_rel_runtime_in_a_dev_op_temp_range
- Periodically requested by the client.bt_mesh_sensor_presence_detected
- Published when a button is pressed on the server.bt_mesh_sensor_time_since_presence_detected
- Periodically requested by the client and published by the server according to its publishing period.
Provisioning¶
The provisioning is handled by the Bluetooth mesh provisioning handler for Nordic DKs. Use nRF Mesh mobile app for provisioning and configuring of models supported by the sample.
Models¶
The following table shows the mesh sensor observer composition data for this sample:
Element 1
Config Server
Health Server
Sensor Client
The models are used for the following purposes:
Config Server allows configurator devices to configure the node remotely.
Health Server provides
attention
callbacks that are used during provisioning to call your attention to the device. These callbacks trigger blinking of the LEDs.Sensor Client gets sensor data from one or more Sensor Server(s).
The model handling is implemented in src/model_handler.c
.
A k_delayed_work
item is submitted recursively to periodically request sensor data.
Requirements¶
The sample supports the following development kits:
Hardware platforms |
PCA |
Board name |
Build target |
---|---|---|---|
PCA10040 |
|
||
PCA10056 |
|
The sample also requires a smartphone with Nordic Semiconductor’s nRF Mesh mobile app installed in one of the following versions:
Additionally, the sample requires the Bluetooth: Mesh sensor sample application, programmed on a separate development kit and configured according to mesh sensor sample’s testing guide.
User interface¶
- Buttons:
Can be used to input the OOB authentication value during provisioning. All buttons have the same functionality during the provisioning procedure.
- Terminal:
All sensor values gathered from the server are printed over UART. For more details, see Testing a sample application.
Building and running¶
This sample can be found under samples/bluetooth/mesh/sensor_client
in the nRF Connect SDK folder structure.
See Building and programming a sample application for information about how to build and program the application.
Testing¶
Note
The mesh sensor observer sample cannot demonstrate any functionality on its own, and needs a device with the Bluetooth: Mesh sensor sample running in the same mesh network. Before testing the mesh sensor observer, go through the mesh sensor’s testing guide with a different kit.
After programming the sample to your development kit, you can test it by using a smartphone with Nordic Semiconductor’s nRF Mesh app installed. Testing consists of provisioning the device and configuring it for communication with the mesh models.
All sensor values gathered from the server are printed over UART. For more details, see Testing a sample application.
Provisioning the device¶
The provisioning assigns an address range to the device, and adds it to the mesh network. Complete the following steps in the nRF Mesh app:
Tap Add node to start scanning for unprovisioned mesh devices.
Select the Mesh Sensor Observer device to connect to it.
Tap Identify, and then Provision, to provision the device.
When prompted, select an OOB method and follow the instructions in the app.
Once the provisioning is complete, the app returns to the Network screen.
Configuring models¶
See Configuring mesh models using the nRF Mesh mobile app for details on how to configure the mesh models with the nRF Mesh mobile app.
Configure the Sensor Client model on the Mesh Sensor Observer node:
Bind the model to Application Key 1.
Set the publication parameters:
Destination/publish address: Select an existing group or create a new one, but make sure that the Sensor Server subscribes to the same group.
Retransmit count: Set the count to zero (Disabled), to avoid duplicate logging in the UART terminal.
Set the subscription parameters: Select an existing group or create a new one, but make sure that the Sensor Server publishes to the same group.
The Sensor Client model is now configured and able to receive data from the Sensor Server.
Dependencies¶
This sample uses the following nRF Connect SDK libraries:
In addition, it uses the following Zephyr libraries:
include/drivers/hwinfo.h
-
include/kernel.h
-
include/bluetooth/bluetooth.h
-
include/bluetooth/mesh.h