The Sensor API is a simple Windows 7 ActiveX interface that allows you to communicate with sensors. Sensors can detect light, temperature, electricity, location (GPS), motion and so on. (The supported list of categories is available in MSDN).
Where to Find Sensors?
In the SDK, there is a Virtual Light Sensor that can simulate a light sensor. As Windows 7 is released, more and more devices will support the Sensors abstraction API.
In my site, I've also created a GPS Sensor Driver that reads actual GPS data from a COM port. Read more here.
The sample here provides code for both full (explorer) sensor capabilities and also a simple
SENSOR namespace that implements sensors in a library you can use. The steps for the full explorer are:
CoCreateInstance() to instantiate an
ISensorManager::GetSensorsByCategory using the requested category (all categories in MSDN).
- From the returned
GetCount() to get the number of sensors in that category, then call
GetAt() to retrieve an
ISensor methods to learn about the sensor properties, type, ID etc.
- To get the supported data fields, call
GetAt() from the returned
IPortableDeviceCollection to get the data fields.
ISensor::GetData() to retrieve the current data in a
ISensorDataReport::GetSensorValue to get a specific value, use
ISensorDataReport::GetTimestamp to return the time at which the data was collected.
Sensors are disabled by default, so you may have to call
ISensorManager::RequestPermissions if you get an access denied error when retrieving the sensor state.
All this stuff is used in main.cpp.
Sensor Manager Events
The Sensor Manager can notify you when something occurs. Implement an
ISensorManagerEvents, then pass it to
ISensorManager::SetEventSink. Currently, this interface implements the
OnSensorEnter() function which is called when a sensor is available.
The Sensor can notify you when something occurs. Implement an
ISensorEvents, then pass it to
ISensor::SetEventSink, then call
ISensor::SetEventInterest to indicate the types of notifications you want to receive. Currently,
ISensorEvents implements four member functions which notify you when an event occurs, when data is changed, when state is changed, and when the sensor is disabled.
Using an Actual Sensor
The Virtual Light sensor is OK for testing purposes, but we need real data. I've created a small sample driver project, GPSDirect, which can read and parse actual GPS information from a COM port (Bluetooth, USB etc.). This driver currently supports parsing GGA and RMC sentences to provide position information.
In case you just want a simple interface, you can use my senslib* project and the
SENSOR namespace. This currently implements a
SENSOR and a
LIGHTSENSOR class to be used as follows:
INT_PTR CALLBACK D_DP(HWND hh,UINT mm,WPARAM ww,LPARAM ll)
HWND hT = GetDlgItem(hh,701);
HWND hL2 = GetDlgItem(hh,902);
static SENSOR::LIGHTSENSOR* ls = 0;
ls = new SENSOR::LIGHTSENSOR(hh,WM_USER);
if (ww == 0)
SENSOR::SENSOR_DATA* data = (SENSOR::SENSOR_DATA*)ll;
for(unsigned int i = 0 ; i < data->Num ; i++)
if (data->keys[i] == SENSOR_DATA_TYPE_LIGHT_LEVEL_LUX)
- 28 - 9 - 2009: Library update and GPS Sensor.
- 2 - 5 - 2009: First release.
I'm working in C++, PHP , Flash and DSP Programming, currently experimenting with Windows 7 technologies and professional audio applications.
I 've a PhD in Digital Signal Processing.
My home page: http://www.michaelchourdakis.com