Automated sickle cell disease identification in human red blood cells using a lensless single random phase encoding biosensor and convolutional neural networks
PM Douglass, T O'Connor, B Javidi - Optics Express, 2022 - opg.optica.org
We present a compact, field portable, lensless, single random phase encoding biosensor for
automated classification between healthy and sickle cell disease human red blood cells …
automated classification between healthy and sickle cell disease human red blood cells …
Automated sickle cell disease identification in human red blood cells using a lensless single random phase encoding biosensor and convolutional neural networks
PM Douglass, T O'Connor, B Javidi - Optics express, 2022 - pubmed.ncbi.nlm.nih.gov
We present a compact, field portable, lensless, single random phase encoding biosensor for
automated classification between healthy and sickle cell disease human red blood cells …
automated classification between healthy and sickle cell disease human red blood cells …
Automated sickle cell disease identification in human red blood cells using a lensless single random phase encoding biosensor and convolutional neural networks.
PM Douglass, T O'Connor, B Javidi - Optics Express, 2022 - europepmc.org
We present a compact, field portable, lensless, single random phase encoding biosensor for
automated classification between healthy and sickle cell disease human red blood cells …
automated classification between healthy and sickle cell disease human red blood cells …
Automated sickle cell disease identification in human red blood cells using a lensless single random phase encoding biosensor and convolutional neural networks
PM Douglass, T O'Connor, B Javidi - Optics Express, 2022 - ui.adsabs.harvard.edu
We present a compact, field portable, lensless, single random phase encoding biosensor for
automated classification between healthy and sickle cell disease human red blood cells …
automated classification between healthy and sickle cell disease human red blood cells …