projects
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projects [2012/09/03 21:05] – jonathan | projects [2015/08/11 15:24] – jarek | ||
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- | ====== | + | ====== |
- | (Listed in order received.) | + | \\ |
- | ====== Continuation of a Path Diagram to Syntax Application ====== | + | ===Dynamic Interface Detection and Control Project=== |
- | **Supervisor**: Jeff Edmonds | + | **Supervisor: Michael Jenkin** |
- | **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. |
- | Structural equation modeling (SEM) is a statistical technique that is becoming increasingly popular | + | Extraction of the reaction mixture for purification and/or further processing is an important step in chemical manufacturing. This is a relatively straightforward operation |
- | The software required | + | A key step in the process takes place in a clear tube that is mounted vertically. |
- | To date a promising functional application has been developed in JAVA by a Computer Science student as a 4080 project. The existing software allows the user to draw a path diagram and outputs code for the R package sem. There are a number of improvements to be made (refinements | + | One way of solving this problem is to float a marker at the boundary between the two liquids |
- | More details {{:continuation_of_a_path_diagram_to_syntax_application.pdf|here}}. | + | Specific goals of the project include: |
- | ====== YUsend Thermal Vacuum (TVAC) Test Manager ====== | + | - Develop a computer vision system that can detect and monitor the interface between two miscible fluids of different density. |
- | **Supervisor**: | + | - Evaluate the performance of the system over a range of different (and typical) fluids |
- | **Required Background**: | + | - Explore the use of different illuminant/ |
- | **Description** | + | The successful candidate(s) will have the experience of working with a diverse group of scientists |
- | Specific tasks include: 1. Writing temperature acquisition card (OMEGA Engineering CIO-DAS-Temp) drivers for LabView - should be written in Visual C++ or similar and compiled into SubVI format. 2. Write LabView VI's (“Virtual Instrument”) to perform (a) Test set-up activities - checkout of sensor and lamps, assigning neumonics to temperature sensors, setting of alarm conditions for sensors and lamps (b) Acquire and monitor temperature data and control lamp voltage during test, raise operator alarms for temperature or IR lamp anomalous conditions as required © Store temperature and control data for subsequent analysis and reporting. 3. (Optional) Interface the Test Manager with an orbital simulation tool which would be used to compute IR lamp inputs based on a simulation of the nanosatellite' | + | For further information please contact, |
+ | Michael Jenkin (jenkin@cse.yorku.ca) or Michal Organ (organ@yorku.ca) | ||
- | ====== | + | \\ |
+ | ====== | ||
- | **Supervisor**: | + | **Supervisor**: |
- | **Required | + | **Recommended |
- | **Description** Game playing frameworks in Eiffel | + | 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 | ||
+ | domain specially designed to attract Google-bots and then manipulate them | ||
+ | into generating attack traffic towards the target/victim site; b) the | ||
+ | victim' | ||
+ | component, the project will also look into the statistical/ | ||
+ | estimation of the framework's anticipated ' | ||
+ | to an actual (real-world) target/ | ||
- | ====== Numerical Methods ====== | ||
- | **Supervisor**: | ||
- | **Required Background**: | ||
- | of Fortran, C or similar language. | ||
- | **Description**: | + | \\ |
- | polynomial equations, with a view to comparing different known methods. | + | ====== Attentive Sensing for Better Two-Way Communication in Remote Learning Environments ====== |
- | ====== Enabling SaaS access to an experimental AI planner ====== | + | **Supervisor**: |
- | **Required Background**: | + | **Required Background**: |
- | 3402 -- Functional & Logic Programming, | + | good math skills, knowledge |
- | 3101 -- Design and Analysis | + | |
- | 4302 -- Compilers | + | |
- | **Description**: | + | One of the challenges in remote learning is to allow students to communicate effectively with the lecturer. |
+ | |||
+ | The goal of this project is to apply attentive sensing technology | ||
+ | |||
+ | In particular, working with a senior graduate student or postdoctoral fellow, | ||
+ | |||
+ | - Study the problem of detecting hand-raises | ||
+ | | ||
+ | - Evaluate these algorithms in a real-classroom setting, using proprietary attentive sensing technology | ||
- | The components are various Unix executables and LISP programs that need to interact in complex ways. The components may be residing in different servers in different universities. Currently integration is performed manually, at the expense of usability. Thus, we aim at constructing a module that: (a) integrates involved components to deliver output in one call, (b) exports a unique web interface (preferably following WSDL/SOAP) to be easily accessed by custom front-end tools by anyone, anywhere, (c) offers a simple front-end for human users. | ||
- | Learning objectives: | + | ====== Attentive Sensing for Sport Video Recording Markets ====== |
- | * Understand the technologies and process involved in turning native code into a web-service (" | + | |
- | * Study a state-of-the-art AI planner and understand its workings. | + | |
- | * Exercise scripting skills. | + | |
+ | **Supervisor**: | ||
+ | **Required Background**: | ||
+ | |||
+ | 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. | ||
+ | |||
+ | ------------ | ||
+ | |||
+ | |||
+ | \\ | ||
+ | ====== Hunting for Bugs in Logging: applying JPF to log4j ====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | Description: | ||
+ | Java PathFinder (JPF) is a tool that can detect bugs in Java code. | ||
+ | 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. | ||
+ | |||
+ | Recently, in collaboration with Shafiei (NASA) we have developed | ||
+ | an extension of JPF called jpf-nhandler. | ||
+ | is to apply this extension to log4j. | ||
+ | |||
+ | [1] David A. Dickey, B. Sinem Dorter, J. Michael German, Benjamin D. Madore, Mark W. Piper, Gabriel L. Zenarosa. " | ||
+ | |||
+ | **Required Background: | ||
+ | \\ | ||
+ | ------------ | ||
+ | \\ | ||
+ | |||
+ | |||
+ | ====== Immersive Virtual Reality Kitchen Planner ====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required 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====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required Background: | ||
+ | |||
+ | This project implements and tests various 3D Navigation and 3D Interaction methods in an immersive virtual reality system. The target is to enable the user to roam freely in a large environment while still being able to interact with the environment. The implementation will be based on Unity 4. | ||
+ | \\ | ||
+ | ------------ | ||
+ | \\ | ||
+ | |||
+ | |||
+ | ====== Mining Software Repositories Data====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required Background: | ||
+ | |||
+ | **Short Description: | ||
+ | |||
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | |||
+ | ======Reliably tracking horizontal eye movements====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required Background: | ||
+ | |||
+ | **Description: | ||
+ | |||
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | |||
+ | ======Model-based Design and Development of Embedded Systems with Code Generation Tools====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required Background: | ||
+ | such as Arduino. | ||
+ | |||
+ | **Project Description: | ||
+ | |||
+ | Model-based design with code generation tools can be used for simulation, rapid prototyping, | ||
+ | |||
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | |||
+ | ======C2000 Concerto Microcontrollers====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required Background: | ||
+ | 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. | ||
+ | |||
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | |||
+ | ======Real-Time Bidding Platform====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Required Background: | ||
+ | (CSE3221), strong Ubuntu/ | ||
+ | |||
+ | **Description: | ||
+ | |||
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | |||
+ | ======Circuit and Board Design for a Pulsed Ground Penetrating Radar====== | ||
+ | |||
+ | **Supervisor: | ||
+ | |||
+ | **Description: | ||
+ | |||
+ | **Required Background** A background in undergraduate-level electronics is very important. | ||
+ | |||
+ | \\ | ||
+ | ------------------ | ||
+ | \\ | ||
+ | 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