Part Number: TIDEP-0104 Other Parts Discussed in Thread: AWR1642 Hello,
in the TIDEP-0104 "Obsacle Detection Reference Design" sheet it is stated that the maximum range is 20m.
But if I use the formular d_{max}={IF_{max}*c}/{2*S}, where S is…
Part Number: AWR1642BOOST-ODS Other Parts Discussed in Thread: TIDEP-0104
Dear team, I don't quite understand how the Range-Elevation angle heat-map and Range-Azimuth angle heat-map are calculated. The white paper "TIDEP-0104" describes the algorithm…
Part Number: AWR1642BOOST-ODS Other Parts Discussed in Thread: TIDEP-0104
Dear Team, there are two different statements about the FoVs of the Obstacle Detection Reference Design Using 77-GHz mmWave Sensor. I have attached the affected text passages as screenshots…
Part Number: AWR1642BOOST-ODS Other Parts Discussed in Thread: TIDEP-0104 Hi,
I am trying to calculate the azimuth in degree.
I have 2 heatmaps: range-azimuth and range-elevation. I know the range(m) is range bin * range resolution. For the azimuth(degree…
Part Number: AWR1642BOOST-ODS Other Parts Discussed in Thread: TIDEP-0104 , Hello,
Right now I have a AWR1642BOOST-ODS and the TIDEP-0104 running. There I want to "play" with the chirp parameters.
I have read the whitepaper " The fundamentals…
Hi,
The processing chain in the mmwave SDK out of the box demo was designed to perform detection in the range doppler domain because this processing chain will be able to detect moving objects as well.
For mostly static objects we have develop the Obstacle…
Part Number: AWR1843 Recently, we have received questions related to detecting static objects at near range (~ 40 cm). This thread will discuss some of the specific details related to this type of detection.
Readers are invited to ask more questions if…
Hi,
There is a TI Design associated to this demo.See link below
It is possible to modify the parameters of the demo by changing the configuration profile located in
labs\lab0004_obstacle_detection\chirp_configs
The format of the config is described in…