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[http://white.stanford.edu/teach/index.php/Main_Page#Psych_221 Return to Psych 221 Main]
[[Main_Page#Psych_221 | Return to Psych 221 Main]]




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# [[WandellFarrellLian|sample]]
# [[WandellFarrellLian|sample]]
#* Brain Wandell, Joyce Farrell, Trisha Lian.
#* Brian Wandell, Joyce Farrell, Trisha Lian.
 
# [[cnnprediction|Predicting Sensor Response Using Convolutional Neural Networks]]
# [[cnnprediction|Predicting Sensor Response Using Convolutional Neural Networks]]
#* Ed Ng
#* Ed Ng
# [[Human Optics as a Function of Eccentricity]]
# [[Human Optics as a Function of Eccentricity]]
#* Fang-Yu Lin, Nicholas Gaudio, Paavani Dua
#* Fang-Yu Lin, Nicholas Gaudio, Paavani Dua
# [[irtorgb|Colorizing NIR Images Using Machine Learning]]
# [[irtorgb|Colorizing NIR Images Using Machine Learning]]
#* Yao Chen, Jun Li
#* Yao Chen, Jun Li
# [[RMF_as_a_Function_of_Eccentricity_among_Different_Schematic_Eye_Models|Retinal Magnification Factor as a Function of Eccentricity among Different Schematic Eye Models]]
# [[RMF_as_a_Function_of_Eccentricity_among_Different_Schematic_Eye_Models|Retinal Magnification Factor as a Function of Eccentricity among Different Schematic Eye Models]]
#* Zhenzhi Xia
#* Zhenzhi Xia
# [[Google HDR+ Image Processing Pipeline]]
# [[Google HDR+ Image Processing Pipeline]]
#* Jennifer Chih-Wen Lin, Linda Banh, Warren Cheng
#* Jennifer Chih-Wen Lin, Linda Banh, Warren Cheng
# [[Image Upsampling using L3]]
# [[Image Upsampling using L3]]
#* Rituraj, Siddharth Buddhiraju.
#* Rituraj, Siddharth Buddhiraju.
# [[Google HDR pipeline Implementation in Matlab]]
# [[Google HDR pipeline Implementation in Matlab]]
#* Zhihan Jiang, Yicheng Li, Wensi Yin
#* Zhihan Jiang, Yicheng Li, Wensi Yin
# [[JunMultiLED|Characterization of Power LED Non-uniformity for Spectrophotometry Applications]]
# [[JunMultiLED|Characterization of Power LED Non-uniformity for Spectrophotometry Applications]]
#* Brian Jun
#* Brian Jun
# [[scielabfrontendoptics|Spatial CIELAB vs ISETBio and Front-End Physiological Optics]]
# [[scielabfrontendoptics|Spatial CIELAB vs ISETBio and Front-End Physiological Optics]]
#* Lars Jebe, Joe Sommer
#* Lars Jebe, Joe Sommer
# [[Training the linear, local, learned (L3) for imaging in low light conditions]]
# [[Training the linear, local, learned (L3) for imaging in low light conditions]]
#* Zheng Lyu, Zhanghao Sun
#* Zheng Lyu, Zhanghao Sun
# [[Measurement and Application of Spectral Reflectance in IR for Lidar Image Simulation]]
# [[Measurement and Application of Spectral Reflectance in IR for Lidar Image Simulation]]
#* Minda Deng, Yuxin Hu
#* Minda Deng, Yuxin Hu
# [[Creating_an_Automated_Image_Processing_Pipeline_using_a_Convolutional_Neural_Network|Creating an Automated Image Processing Pipeline using a Convolutional Neural Network]]
# [[Creating_an_Automated_Image_Processing_Pipeline_using_a_Convolutional_Neural_Network|Creating an Automated Image Processing Pipeline using a Convolutional Neural Network]]
#* Shreyash Pandey, Viraga Perera, Anand Venkatesan.
#* Shreyash Pandey, Viraga Perera, Anand Venkatesan.
# [[Autofluorescence in the Oral Cavity]]
# [[Autofluorescence in the Oral Cavity]]
#* Alyssa Cartwright
#* Alyssa Cartwright
# [[Automated Attendance System Using Deep Learning]]
# [[Automated Attendance System Using Deep Learning]]
#* Elizabeth Botbol Ponte and Jenya Pergament
#* Elizabeth Botbol Ponte and Jenya Pergament
# [[Monocular Depth Estimation with Global Depth Hints]]
# [[Monocular Depth Estimation with Global Depth Hints]]
#* Mark Nishimura
#* Mark Nishimura
# [[CZCRetinalProsthesis|Human Optics Modeling for Photovoltaic Prosthetic Vision]]
# [[CZCRetinalProsthesis|Human Optics Modeling for Photovoltaic Prosthetic Vision]]
#* Charles Zhijie Chen
#* Charles Zhijie Chen

Latest revision as of 19:22, 22 August 2023

Launch page for Psych 221 Projects in Fall, 2018


Return to Psych 221 Main


There are two deliverables for the project:

  1. A group presentation
  2. A wiki-style project page write-up

To set up your project's page

  • Log in to the wiki
  • Edit the Projects section of this page. Do this by clicking on "[edit]" to the right of each section title.
  • Copy the example project title and group names
  • Paste in a new line under the last item/group
  • Edit the project title and group members. Note that the first part of the text in double brackets is the actual link and must be unique. Putting all your names is the safest way to assure this. The second part, after '|' is the displayed text.
  • Save page by clicking at the bottom
  • Clicking on the link you entered will create a blank page for your project

Project write-ups. Fall 2018

Please place your project pages below:

  1. sample
    • Brian Wandell, Joyce Farrell, Trisha Lian.
  2. Predicting Sensor Response Using Convolutional Neural Networks
    • Ed Ng
  3. Human Optics as a Function of Eccentricity
    • Fang-Yu Lin, Nicholas Gaudio, Paavani Dua
  4. Colorizing NIR Images Using Machine Learning
    • Yao Chen, Jun Li
  5. Retinal Magnification Factor as a Function of Eccentricity among Different Schematic Eye Models
    • Zhenzhi Xia
  6. Google HDR+ Image Processing Pipeline
    • Jennifer Chih-Wen Lin, Linda Banh, Warren Cheng
  7. Image Upsampling using L3
    • Rituraj, Siddharth Buddhiraju.
  8. Google HDR pipeline Implementation in Matlab
    • Zhihan Jiang, Yicheng Li, Wensi Yin
  9. Characterization of Power LED Non-uniformity for Spectrophotometry Applications
    • Brian Jun
  10. Spatial CIELAB vs ISETBio and Front-End Physiological Optics
    • Lars Jebe, Joe Sommer
  11. Training the linear, local, learned (L3) for imaging in low light conditions
    • Zheng Lyu, Zhanghao Sun
  12. Measurement and Application of Spectral Reflectance in IR for Lidar Image Simulation
    • Minda Deng, Yuxin Hu
  13. Creating an Automated Image Processing Pipeline using a Convolutional Neural Network
    • Shreyash Pandey, Viraga Perera, Anand Venkatesan.
  14. Autofluorescence in the Oral Cavity
    • Alyssa Cartwright
  15. Automated Attendance System Using Deep Learning
    • Elizabeth Botbol Ponte and Jenya Pergament
  16. Monocular Depth Estimation with Global Depth Hints
    • Mark Nishimura
  17. Human Optics Modeling for Photovoltaic Prosthetic Vision
    • Charles Zhijie Chen
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