SEDE 2021: Author Index| Author | Papers |
|---|
| B | | Biddle, Nicholas | Translating a Large Software from C# to C++: An Experience Report | | Blankenship, Grayson | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine | | C | | Cal, Semih | Optimized Bootstrap Sampling for σ-AQP Error Estimation: A Pilot Study | | Carscadden, Henry | Automated Generation of Stand-Alone Codes for Software Libraries | | Casey, Allen | Translating a Large Software from C# to C++: An Experience Report | | Castro, Chris | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine | | Chen, Charles | Studying the COVID-19 Impact on the Antarctic Glacier Melting Rate | | Chen, Hongkai | Developing a Google Chrome Extension for Detecting Phishing Emails | | Chen, Mason | Studying the COVID-19 Impact on the Antarctic Glacier Melting Rate | | Cheng, En | Optimized Bootstrap Sampling for σ-AQP Error Estimation: A Pilot Study | | D | | Dascalu, Sergiu | VS-TAP: Veteran Services Tracking and Analytics Program | | Di Lucca, Giuseppe | Comparing Blockchain Platforms for Smart Contracts: A Preliminary Framework | | Ding, Qin | Implementation of BERT based machine learning model to extract cancer-miRNA relationship from research literature | | E | | El-Kassas, Sherif | DBKnot: A Transparent and Seamless, Pluggable, Tamper Evident Database | | G | | Gabriel, Edgar | Translating a Large Software from C# to C++: An Experience Report | | Glock, Skylar | AnthroFace: Requirements, Design, and Implementation | | Goto, Masaaki | Estimating Attention Level from Blinks and Head Movement | | H | | Hall, Daniel | VS-TAP: Veteran Services Tracking and Analytics Program | | Hall, Lin | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine | | Harris Jr, Frederick C. | AnthroFace: Requirements, Design, and Implementation
VS-TAP: Veteran Services Tracking and Analytics Program | | Hewitt, Jonathon | VS-TAP: Veteran Services Tracking and Analytics Program | | Hossain, Mohammad | Developing a Google Chrome Extension for Detecting Phishing Emails | | Hulse, Cortney | AnthroFace: Requirements, Design, and Implementation | | I | | Irwin, Nikkolas | VS-TAP: Veteran Services Tracking and Analytics Program | | Iverson, Jeremy | Separated Feature Learning for Music Composition Using Memory-Based NNs | | K | | Khalil, Islam | DBKnot: A Transparent and Seamless, Pluggable, Tamper Evident Database | | Knoch, Payton | VS-TAP: Veteran Services Tracking and Analytics Program | | Kuhlman, Chris | Automated Generation of Stand-Alone Codes for Software Libraries | | L | | Lee, Devrin | VS-TAP: Veteran Services Tracking and Analytics Program | | M | | Machi, Dustin | Automated Generation of Stand-Alone Codes for Software Libraries | | Machi, Lucas | Automated Generation of Stand-Alone Codes for Software Libraries | | Margapuri, Venkat | Model Checking Mutual Inclusion and Mutual Exclusion Algorithms | | Matsumoto, Kazunori | Estimating Attention Level from Blinks and Head Movement | | Mendel, Katherine | Separated Feature Learning for Music Composition Using Memory-Based NNs | | N | | Neilsen, Mitchell | Model Checking Mutual Inclusion and Mutual Exclusion Algorithms | | Netinant, Paniti | Automated Light System in Smart Home for Elderly and Disabled People Using Mosquitto Server | | P | | Parks, Christopher | VS-TAP: Veteran Services Tracking and Analytics Program | | Perrine, Kealia | AnthroFace: Requirements, Design, and Implementation | | R | | Rahal, Imad | Separated Feature Learning for Music Composition Using Memory-Based NNs | | Ravi, S. S. | Automated Generation of Stand-Alone Codes for Software Libraries | | Rukhiran, Meennapa | Automated Light System in Smart Home for Elderly and Disabled People Using Mosquitto Server | | S | | Sakornthai, Kawinna | Automated Light System in Smart Home for Elderly and Disabled People Using Mosquitto Server | | Sobh, Karim | DBKnot: A Transparent and Seamless, Pluggable, Tamper Evident Database | | Strelow, Ryan | Separated Feature Learning for Music Composition Using Memory-Based NNs | | Stull, Kyra | AnthroFace: Requirements, Design, and Implementation | | Sturm, Henry | AnthroFace: Requirements, Design, and Implementation | | Sundharam, Arunprasad | Implementation of BERT based machine learning model to extract cancer-miRNA relationship from research literature | | T | | Talavera, Gabrielle | AnthroFace: Requirements, Design, and Implementation | | Tanaka, Tetsuo | Estimating Attention Level from Blinks and Head Movement | | Tortorella, Maria | Comparing Blockchain Platforms for Smart Contracts: A Preliminary Framework | | Trombley, Mari | AnthroFace: Requirements, Design, and Implementation | | W | | Wang, Ping | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine | | Whitmire, Shane Tran | Translating a Large Software from C# to C++: An Experience Report | | Wu, Rui | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine | | Y | | Yu, Feng | Optimized Bootstrap Sampling for σ-AQP Error Estimation: A Pilot Study | | Z | | Zenil Lopez, Emmanuel | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine | | Zhao, Kai | Model Checking Mutual Inclusion and Mutual Exclusion Algorithms | | Zhu, Zhen | Using Virtual Reality and Machine Learning Techniques to Visualize the Human Spine |
|
|
