Hi, I'm extremely sorry for the late reply. If you are looking forward to use radar for medical application then you'll be mostly using the Micro-doppler characteristics. So, rather than going ahead with the Automotive Radars (76-81 GHz) you can go ahead with Industrial radars, which will serve the purpose and they'll cost effective too. You can check out TI's IWR6843 fromt this link. www.ti.com/product/IWR6843 . Also the devices like AWR1843BOOST can be very effective. I have been using AWR1843 and AWR1642 devices for quite a long time now, and currently working on the classification of targets using the Micro-doppler signatures. I would suggest you first explore the literature and with what approach you want to go ahead with, then finalizing the device won't be a big issue. Go through the paper below, you will find it useful. And there's a lot of literature on this. ee.hawaii.edu/~madsen/papers/Host-Madsen.pdf Also, you can directly ask question on the TI Support community e2e.ti.com/ They might help you further once you are ready with the specs you need. And once again, i'm extremely sorry for the delay. Would love to discuss further :)
@@shahramnikbakhtian6672 yes, to capture the real time ADC data you need to buy DCA1000EVM. But there is a work around. You can modify the mmWave Demo code and copy ADC samples to L3 memory and transfer them to a Host through UART. But as the transfer bandwidth of the UART interface is limited you won't be able to get the full data and also due to the speed limitations of UART the streaming will be slow. So you might be able to get some frames but you won't be able to stream all the frames is data is more. If you don't want the real time streaming, then you can modify the demo code and get the data from the L3 memory.
I would suggest you to first try modifying the code and see if you are getting sufficient amount of data for your application. If not then you should go ahead with DCA1000EVM.
Hi I’m writing with regard to the question I had last week,
Hi, I'm extremely sorry for the late reply. If you are looking forward to use radar for medical application then you'll be mostly using the Micro-doppler characteristics. So, rather than going ahead with the Automotive Radars (76-81 GHz) you can go ahead with Industrial radars, which will serve the purpose and they'll cost effective too. You can check out TI's IWR6843 fromt this link. www.ti.com/product/IWR6843 . Also the devices like AWR1843BOOST can be very effective. I have been using AWR1843 and AWR1642 devices for quite a long time now, and currently working on the classification of targets using the Micro-doppler signatures.
I would suggest you first explore the literature and with what approach you want to go ahead with, then finalizing the device won't be a big issue.
Go through the paper below, you will find it useful. And there's a lot of literature on this.
ee.hawaii.edu/~madsen/papers/Host-Madsen.pdf
Also, you can directly ask question on the TI Support community e2e.ti.com/
They might help you further once you are ready with the specs you need.
And once again, i'm extremely sorry for the delay.
Would love to discuss further :)
@@shahramnikbakhtian6672 yes, to capture the real time ADC data you need to buy DCA1000EVM. But there is a work around. You can modify the mmWave Demo code and copy ADC samples to L3 memory and transfer them to a Host through UART. But as the transfer bandwidth of the UART interface is limited you won't be able to get the full data and also due to the speed limitations of UART the streaming will be slow. So you might be able to get some frames but you won't be able to stream all the frames is data is more. If you don't want the real time streaming, then you can modify the demo code and get the data from the L3 memory.
I would suggest you to first try modifying the code and see if you are getting sufficient amount of data for your application. If not then you should go ahead with DCA1000EVM.