The electromagnetic spectrum between infrared light and microwave radiation, known as the TeraHertz (THz) spectrum, has recently attracted a great deal of interest due to its wide and unigue applications, As readily sources for such a spectrum are not available, several technigues have been developed to realize THz generation, Nonetheless, achieving an efficient, tunable, and low cost THz sources remain a serious challenge, In this project, we are aiming to model, design, and experimentally demonstrate THz generation in a nonlinear optical medium, This can be achieved by the mean of mixing
Vaccination is the most effective method for the prevention of a wide range of human illnesses. Vaccines are currently prepared by growing live virus strains in chicken eggs. New strategies are very much needed to improve the speed and efficiency of virus production, especially during disease outbreaks. Recently, Chem Virion has identified new drugs which can significantly boost the growth of viruses. We propose to use these drugs to improve vaccine production. We will focus on using these drugs to increase the production of the swine flu (or H1N1) vaccine in cells grown in the laborat
People with swallowing disorders must eat pureed or minced texture foods to eat safely. However, the process of pureeing or mincing greatly reduces the food’s appeal, often degrades its nutritional quality and can lead to undernutrition. New reformed modified-texture food products have been developed specifically for people with swallowing disorders.
One of music education's major concerns is the challenge of motivating students to continue learning the piano. A high percentage of young students stop piano lessons within the first 18 months, before they begin to master the instrument (Sloboda and Howe, 1991). This research will measure young piano students' degree of motivation and their interest in piano-related activities by using the Survey of Musical Interest. Participants will be from the Merriam School of Music, which has agreed to be involved in this research project.
The topic area of this work is node-binding. Node binding is the problem of binding software to a specific instance of a hardware platform. Applications of node binding include protection of copywrited software and digital media. The specific focus of this work will be the creation of a software mechanism which can be used to bind an arbitrary piece of software to a specific x86 hardware platform instance. Study must be made of the literature and the hardware platform in question so that a technique for node binding can be devised.
Nouse® software technology is a unique Canadian patented technology that uses advanced Video Recognition algorithms to allow a computer user to operate a computer hands‐free using the nose )or any other part of the body). Essentially, the Nouse® allows an individual to use their nose as a mouse. Over the past 4 years, a partnership between the University of Ottawa, Bruyère Continuing Care and IVIM Inc. has been working on refining this technology to ensure it is suitable for a physically disabled population.
There are currently no practical/economical repair methods for many aerospace parts made of aluminum/titanium. The Cold Spray technology produces metal coatings by accelerating metal powders into the substrate to be coated using high velocity jet at supersonic speeds. Upon impact the particles plastically deform and produce a dense coating. Metals such as aluminum/titanium can be applied by this process without damaging the parts to be coated. As such, it is believed that Cold Spray can be used to restore/repair damaged aluminum/titanium aerospace coatings/parts as well as other parts.
Autonomic Computing Systems are systems which are capable of self‐configuring, self‐healing, self‐optimizing and self‐protecting themselves, by constantly monitoring the current state of the system, determining if the state of the system must change and how the state must change, and finally taking appropriate action in order to bring the system to the desired state. The intern will build on previous work in autonomic computing by analyzing the impact of making changes in a control loop at runtime.
High dose chemotherapy treatment for lymphoma is followed by the infusion of patients’ own bloodforming stem cells to restore the function of the bone marrow. Canada Blood Services provides critical support in processing and storing these essential stem cell products at very low temperatures. On occasion, the recovery of blood cells after the transplant is delayed, increasing the risk of infections and bleeding complications. In many cases, it is not known why there is delayed engraftment.
This applied research engineering project is a University of Ottawa-CRC collaboration to produce knowledge applicable in the design of future wireless communication systems and networks. The collaboration gives the intern access to both CRC's technical capabilities, equipment, internationally recognized expertise in radio propagation research and radio channel modeling, along with the theoretical knowledge developed at the University of Ottawa.