projects
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projects [2011/09/06 00:11] – added mcnamee and wang dymond | projects [2014/09/03 11:11] – jarek | ||
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- | ====== | + | ====== |
- | (Listed in order received.) | + | \\ |
- | ====== Building an autonomous motorboat ====== | + | ===Dynamic Interface Detection and Control Project=== |
- | **Supervisor**: Michael Jenkin | + | **Supervisor: |
- | **Required Background**: | ||
- | **Recommended Background**: | + | Contrary to most industries, fine chemical manufacturing is dominated by batch production methods. Increasing economic, environmental and safety pressures are motivating a turn towards continuous synthesis. Rather than making products in one big flask, continuous synthesis involves performing chemical reactions by flowing reagents through a tube. Working in this way provides more control over the reaction parameters leading to increases in product quality, and process efficiency and safety. The flow chemistry industry for fine chemical production is a relatively new but burgeoning field with a projected market capacity of billions of dollars by 2018. |
- | __Description__ | + | Extraction of the reaction mixture |
- | An opportunity exists | + | |
+ | A key step in the process takes place in a clear tube that is mounted vertically. The tube contains two fluids with a boundary between them. During the process material flows into and out of the tube from the top and the bottom. Chemical reactions take place within this tube and It is essential that the position of the boundary be monitored as its position in the tube is used to control the flow of materials into the tube. | ||
+ | One way of solving this problem is to float a marker at the boundary between the two liquids and to monitor this boundary using a video camera. Although this approach solves the problem, it requires the introduction of a specific float within the tube. Can we build a system that monitors the boundary without resorting to the use of an artificial float? | ||
- | ---- | + | Specific goals of the project include: |
- | : | + | - Develop a computer vision system that can detect and monitor the interface between two miscible fluids of different density. |
- | ---- | + | - Evaluate the performance of the system over a range of different (and typical) fluids |
+ | - Explore the use of different illuminant/ | ||
- | ====== Athenians Data Project ====== | + | The successful candidate(s) will have the experience of working with a diverse group of scientists and engineers toward the design and implementation of an automated liquid extraction device with applications across many industries. Upon successful prototyping, |
- | **Supervisor**: | + | For further information please contact, |
- | **Required Background**: | + | Michael Jenkin (jenkin@cse.yorku.ca) or Michal Organ (organ@yorku.ca) |
- | **Recommended Background**: | + | \\ |
+ | ====== DDoS Attack using Google-bots ====== | ||
- | __Description__ | + | **Supervisor**: Ntalija Vlajic |
- | The Athenians Project is a multi-year, ongoing project of compiling, computerizing and studying data about the persons of ancient Athens. | + | |
- | Possible project ideas for this term span from simpler ones such as | + | |
- | how to present data in the best possible way, add spatial characteristics to existing data, | + | |
- | add multimedia data, improve text searching, etc. to more complex ideas such as filling | + | |
- | missing parts for the " | + | |
- | words has been done in the past using expert knowledge. Those experts have establish | + | |
- | certain rules/ | + | |
- | when talking in IT terminology. Furthermore, | + | |
- | the database with some likelihood. Associating probabilities with hypotheses introduces | + | |
- | another opportunity for research projects. | + | |
- | ---- | + | |
- | : | + | |
- | ---- | + | |
- | ====== Three-Dimensional Context from Linear Perspective for Video Surveillance Systems ====== | + | **Recommended Background**: |
- | **Supervisor**: James Elder | + | Not long ago, botnets - networks of compromised computers - were seen as |
+ | the most effective (if not the only) means of conducting Distributed Denial | ||
+ | of Service (DDoS) attacks. However, with the growing popularity and prevalence | ||
+ | of application-layer over other types of DDoS attacks, the DDoS execution | ||
+ | landscape is becoming increasingly more diverse. An especially interesting | ||
+ | new trend is the execution of application-layer DDoS attacks by means of | ||
+ | skillfully manipulated Web-crawlers, | ||
+ | The goal of this project is to design, implement and test a real-world | ||
+ | framework consisting of the following: a) the attacker' | ||
+ | domain specially designed to attract Google-bots and then manipulate them | ||
+ | into generating attack traffic towards the target/ | ||
+ | victim' | ||
+ | component, the project will also look into the statistical/ | ||
+ | estimation of the framework' | ||
+ | to an actual (real-world) target/ | ||
- | **Requirements**: | ||
- | __Description__ | ||
- | To provide visual surveillance over a large environment, | ||
- | This problem can be addressed by automatically pre-mapping two-dimensional surveillance video data into three-dimensional coordinates. | + | \\ |
+ | ====== Attentive Sensing for Better Two-Way Communication | ||
- | Mapping surveillance video to three-dimensional coordinates requires construction of a virtual model of the three-dimensional scene. | + | **Supervisor**: |
- | This project will investigate a monocular method for inferring three-dimensional context for video surveillance. | + | **Required Background**: |
+ | good math skills, knowledge | ||
- | Although | + | One of the challenges in remote learning is to allow students to communicate effectively with the lecturer. |
+ | |||
+ | The goal of this project | ||
+ | |||
+ | In particular, working with a senior graduate student or postdoctoral fellow, the successful applicant will: | ||
+ | |||
+ | | ||
+ | - Implement algorithms for detecting hand-raises based upon this investigation | ||
+ | | ||
- | The student will work closely with graduate students and postdoctoral fellows at York University, as well as researchers at other institutions involved in the project. | ||
- | For more information on the laboratory: [[http:// | + | ====== Attentive Sensing for Sport Video Recording Markets ====== |
- | ---- | + | **Supervisor**: James Elder |
- | : | + | |
- | ---- | + | |
- | ====== Estimating Pedestrian | + | **Required Background**: |
- | **Supervisor**: | + | |
+ | The goal of this project is to modify York University’s patented attentive sensor technology to the sport video recording market. | ||
+ | |||
+ | The general problem is to use attentive sensing technology (www.elderlab.yorku.ca) to visually detect and track multiple moving agents (e.g., skiers, riders, horses) and to select specific agents for active high-resolution smooth pursuit. | ||
+ | |||
+ | The student will work with senior graduate students, postdoctoral fellows and research scientists to help modify the attentive sensing technology to operate in these domains. | ||
+ | |||
+ | 1. | ||
+ | 2. | ||
+ | 3. | ||
+ | |||
+ | ------------ | ||
+ | |||
- | **Requirements**: Good facility with applied mathematics | + | \\ |
+ | ====== Hunting for Bugs in Logging: applying JPF to log4j ====== | ||
- | __Description__ | + | **Supervisor: |
- | Facilities planning at both city (e.g., Toronto) and institutional (e.g., York University) scales requires accurate data on the flow of people and vehicles throughout the environment. | + | Description: |
+ | Java PathFinder | ||
+ | The Java library Apache log4j allows developers to control which log | ||
+ | statements are output. | ||
+ | to detect bugs in log4j by means of JPF with very limited succes. | ||
- | The density | + | Recently, in collaboration with Shafiei (NASA) we have developed |
+ | an extension | ||
+ | is to apply this extension to log4j. | ||
- | This project will explore the use of computer vision algorithms for the automatic estimation of pedestrian and vehicle flows from video surveillance data. The ultimate goal is to provide planners with accurate, continuous, up-to-date information | + | [1] David A. Dickey, B. Sinem Dorter, J. Michael German, Benjamin D. Madore, Mark W. Piper, Gabriel L. Zenarosa. " |
- | The student will work closely with graduate students and postdoctoral fellows at York University, as well as researchers at other institutions involved in the project. | + | **Required Background: |
+ | \\ | ||
+ | ------------ | ||
+ | \\ | ||
+ | ======Hybrid 2D/3D User Interfaces for 3D Rotation ====== | ||
- | For more information on the laboratory: [[http:// | + | **Supervisor:** Wolfgang Stuerzlinger |
- | + | ||
- | ---- | + | **Required Background:** General 408X prerequisites, |
- | : | + | |
- | ---- | + | |
- | ====== | + | This project implements and evaluates a new method for 3D Rotation where the user uses both a 2D and 3D user interface to complete the task. The fundamental idea is to use the 3D interface for large-scale manipulation, |
+ | \\ | ||
+ | ------------ | ||
+ | \\ | ||
+ | ====== | ||
- | **Supervisor**: Suprakash Datta | + | **Supervisor:** Wolfgang Stuerzlinger |
- | **Required Background**: The student should have completed | + | **Required Background:** General 408X prerequisites, |
- | **Recommended Background**: | + | This project implements a kitchen planner application for an immersive virtual reality system. The implementation will be based on Unity 4. |
+ | \\ | ||
+ | ------------ | ||
+ | \\ | ||
+ | ======3D Interaction in Immersive Virtual Reality====== | ||
- | __Description__ | + | **Supervisor:** Wolfgang Stuerzlinger |
- | DNA sequences of organisms have many repeated substrings. These are called repeats in Biology, and include both exact as well as approximate repeats. Repeats are of two main types: interspersed repeats (which are spread across a genome) and tandem repeats, which occur next to each other. Tandem repeats play important roles in gene regulation and are also used as markers that have several important uses, including human identity testing. | + | |
- | Finding tandem repeats is an important problem in Computational Biology. The techniques that have been proposed for it fall into two classes: string matching algorithms and signal processing techniques. In this project, we will explore fast, accurate algorithms for detecting tandem repeats and evaluate the outputs of the algorithms studied by comparing their outputs with those of available packages, including mreps (http:// | + | **Required Background:** General 408X prerequisites, 3D Computer Graphics |
- | The student will implement existing spectral algorithms based on Fourier Transforms | + | This project implements and tests various 3D Navigation |
+ | \\ | ||
+ | ------------ | ||
+ | \\ | ||
+ | ====== Mining Software Repositories Data====== | ||
+ | **Supervisor: | ||
- | ---- | + | **Required Background:** Good programming skills in Java; Good analytical and communication skills; Knowledge in AI and statistics; Interested in large scale software analysis |
- | : | + | |
- | ---- | + | |
- | ====== Touch- | + | **Short Description: |
- | **Supervisor**: | + | \\ |
+ | ------------------ | ||
+ | \\ | ||
- | **Required Background**: | + | ======Reliably tracking horizontal eye movements====== |
- | CSE3461 (or equivalent), | + | |
- | A student wishing to do this project must be well versed in Java, Eclipse, and developing java code for the Android operating system. | + | |
+ | **Supervisor: | ||
- | **Recommended | + | **Required |
- | Possession of an Android touch-based phone or tablet would be an asset, but is not essential. | + | |
- | __Description__ | + | **Description: |
- | This project involves extending a touch-based text entry method to include automatic error correction. The method, as is, uses Graffiti strokes entered via a finger on a touch-based Android tablet. | + | |
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | ======Model-based Design and Development of Embedded Systems with Code Generation Tools====== | ||
- | ---- | + | **Supervisor:** Jia Xu |
- | : | + | |
- | ---- | + | |
- | ====== Early Breast Cancer Detection based on MRI’s. ====== | + | |
- | **Supervisor**: Amir Asif | + | **Required Background:** At least a B+ in Embedded Systems (CSE3215), MATLAB, C programming skills, solid experience in using a microcontroller |
+ | such as Arduino. | ||
- | **Required Background**: General CSE408x prerequisites | + | **Project Description: |
- | **Recommended background**: | + | Model-based design with code generation tools can be used for simulation, rapid prototyping, |
- | Project Description: | + | \\ |
- | processing techniques for early detection of breast cancer using the available | + | ------------------ |
- | modalities. In particular, we propose to develop time reversal beamforming imager, | + | \\ |
- | based on our earlier work in time reversal signal processing, for detecting early stage | + | |
- | breast cancer tumours from MRI data. | + | |
- | Our preliminary work has illustrated the type of | + | |
- | results that are possible for breast cancer detection by applying time reversal signal | + | |
- | processing on MRI breast data. In this research, we propose to extend these results to | + | |
- | provide a quantitative understanding of the practical gains provided by time reversal | + | |
- | in MRI based breast cancer detection and its limitations. This will be accomplished | + | |
- | a local hospital, and running our algorithms on these datasets. The first step is | + | |
- | important to check the validity of our algorithms. The next step is to compare the | + | |
- | estimated locations of the tumours (as derived with our algorithms) to their precise | + | |
- | locations as identified by the pathologists. The second step will quantify the accuracy | + | |
- | of our estimation algorithms. | + | |
- | ---- | + | ======C2000 Concerto Microcontrollers====== |
- | : | + | |
- | ---- | + | |
- | ====== | + | |
- | **Supervisor**: Hui Jang | + | **Supervisor:** Jia Xu |
- | **Required Background**: | + | **Required Background:** At least a B+ in Embedded Systems (CSE3215), |
- | General prerequisites | + | strong C programming skills, solid knowledge of microcontrollers |
+ | **Description: | ||
+ | two cores on a single-chip with on-chip low latency interprocessor communication between the two cores: a C28x 32-bit control core for | ||
+ | real-time control with faster/more loops and small sampling window; | ||
+ | and an ARM 32-bit Cortex-M3 host core for communications and general purpose. The selected student will evaluate the capabilities of the | ||
+ | C2000 Concerto family of microcontrollers through testing and investigating open source software for real-time control applications | ||
+ | that runs on C2000 Concerto Microcontrollers. | ||
- | __Description__ | + | \\ |
+ | ------------------ | ||
+ | \\ | ||
- | Recently, Graphics Processing Units (GPU' | + | ======Real-Time Bidding Platform====== |
- | During the recent years, there is an increasing demand in the job market for programmers who can use GPU's for general purpose computing tasks. This project will serve as a perfect vehicle for you to learn such a cutting-edge programming skill. | + | **Supervisor: |
- | References | + | **Required Background: |
+ | (CSE3221), strong Ubuntu/ | ||
- | [1] Kisun You, Jike Chong, Youngmin Yi, Gonina, E., Hughes, C.J., Yen-Kuang Chen, Wonyong Sung, Keutzer, K., " | + | **Description: |
- | [2] Jike Chong, Ekaterina Gonina, Youngmin Yi, Kurt Keutzer, "A Fully Data Parallel WFST-based Large Vocabulary Continuous Speech Recognition on a Graphics Processing Unit," Proc. of Interspeech 2009, Brigton, UK, 2009. | + | \\ |
- | ---- | + | ------------------ |
- | : | + | \\ |
- | ---- | + | |
- | ====== Solving Polynomials ====== | + | |
- | **Supervisor**: | + | ======Circuit and Board Design for a Pulsed Ground Penetrating Radar====== |
- | **Required Background**: | + | **Supervisor:**Sebastian Magierowski |
- | General prerequisites plus course in Numerical Methods, and knowledge of programming, | + | |
+ | **Description: | ||
- | __Description__ | + | **Required Background** A background in undergraduate-level electronics is very important. |
- | In this project you will compare several efficient methods for solving polynomials. Pre-req: course | + | \\ |
- | ---- | + | ------------------ |
- | : | + | \\ |
- | ---- | + | More project proposals may be added here in the first week of the winter term. |
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | \\ |
projects.txt · Last modified: 2016/01/13 20:05 by stevenc