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Title: Battery Powered Transport for Beach Launched Boats (Semester Unknown) IPRO 352
Creator: Bueno, Juan, Sklena, Brian, Cumar, Raghuveer, Tatkowski, Greg, Kim, Miry, Watts, William, Mccabe, Mary, You, Jay
Date: 2010, 2010-05
Description: The IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked...
Show moreThe IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked together and designed an innovative catamaran transporter efficient enough to be operated by a single person, dramatically reducing physical labor and maximizing business potential. The team is made up of students seeking to gain professional experience in all areas of engineering, business, and design.
Deliverables
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Title: Battery Powered Transport for Beach Launched Boats (Semester Unknown) IPRO 352
Creator: Bueno, Juan, Sklena, Brian, Cumar, Raghuveer, Tatkowski, Greg, Kim, Miry, Watts, William, Mccabe, Mary, You, Jay
Date: 2010, 2010-05
Description: The IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked...
Show moreThe IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked together and designed an innovative catamaran transporter efficient enough to be operated by a single person, dramatically reducing physical labor and maximizing business potential. The team is made up of students seeking to gain professional experience in all areas of engineering, business, and design.
Deliverables
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Title: Battery Powered Transport for Beach Launched Boats (Semester Unknown) IPRO 352
Creator: Bueno, Juan, Sklena, Brian, Cumar, Raghuveer, Tatkowski, Greg, Kim, Miry, Watts, William, Mccabe, Mary, You, Jay
Date: 2010, 2010-05
Description: The IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked...
Show moreThe IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked together and designed an innovative catamaran transporter efficient enough to be operated by a single person, dramatically reducing physical labor and maximizing business potential. The team is made up of students seeking to gain professional experience in all areas of engineering, business, and design.
Deliverables
Show less

Title: Battery Powered Transport for Beach Launched Boats (Semester Unknown) IPRO 352
Creator: Bueno, Juan, Sklena, Brian, Cumar, Raghuveer, Tatkowski, Greg, Kim, Miry, Watts, William, Mccabe, Mary, You, Jay
Date: 2010, 2010-05
Description: The IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked...
Show moreThe IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked together and designed an innovative catamaran transporter efficient enough to be operated by a single person, dramatically reducing physical labor and maximizing business potential. The team is made up of students seeking to gain professional experience in all areas of engineering, business, and design.
Deliverables
Show less

Title: Battery Powered Transport for Beach Launched Boats (Semester Unknown) IPRO 352
Creator: Bueno, Juan, Sklena, Brian, Cumar, Raghuveer, Tatkowski, Greg, Kim, Miry, Watts, William, Mccabe, Mary, You, Jay
Date: 2010, 2010-05
Description: The IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked...
Show moreThe IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked together and designed an innovative catamaran transporter efficient enough to be operated by a single person, dramatically reducing physical labor and maximizing business potential. The team is made up of students seeking to gain professional experience in all areas of engineering, business, and design.
Deliverables
Show less

Title: Battery Powered Transport for Beach Launched Boats (Semester Unknown) IPRO 352
Creator: Bueno, Juan, Sklena, Brian, Cumar, Raghuveer, Tatkowski, Greg, Kim, Miry, Watts, William, Mccabe, Mary, You, Jay
Date: 2010, 2010-05
Description: The IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked...
Show moreThe IPRO 352 team has investigated, experimented, and finally come up with a solution to the beach‐launched boat problem. They have worked together and designed an innovative catamaran transporter efficient enough to be operated by a single person, dramatically reducing physical labor and maximizing business potential. The team is made up of students seeking to gain professional experience in all areas of engineering, business, and design.
Deliverables
Show less

Title: De (semester?), IPRO 342: Hybrid Electric Vehicles - Simulation Design Implementation IPRO 342 IPRO Day Presentation Sp06
Creator: Martin, Ana, Ghosh, Shameek, Fleming, Robert, Lolwaczny, Dan, Lee, Jae Suk, Warner, Alexander, Sharadendu, Dipti, Shenoy, Pradeep, Vadgaama, Jasmine, Locascio, Kevin, Hernandez, Jose, Oh, Taekmin, Mulhall, Priscilla, Patel, Sapna
Date: 2006-05, 2006-05
Description: IPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit...
Show moreIPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit parallel design for the CTA bus, while for the school bus there will be a new and a retrofit parallel design. All vehicle simulations and structured testing will be performed using ADVISOR, as well as other software packages available in the Power Electronics and Motor Drives Laboratory at IIT. Designed heavy-duty vehicles will be simulated and their performance as well as fuel economy and emissions under different conditions will be studied.
Deliverables for IPRO 342: Hybrid Electric Vehicles: Simulation, Design, and Implementation for the Spring 2006 semester
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Title: De (semester?), IPRO 342: Hybrid Electric Vehicles - Simulation Design Implementation IPRO 342 Midterm Report Sp06
Creator: Martin, Ana, Ghosh, Shameek, Fleming, Robert, Lolwaczny, Dan, Lee, Jae Suk, Warner, Alexander, Sharadendu, Dipti, Shenoy, Pradeep, Vadgaama, Jasmine, Locascio, Kevin, Hernandez, Jose, Oh, Taekmin, Mulhall, Priscilla, Patel, Sapna
Date: 2006-05, 2006-05
Description: IPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit...
Show moreIPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit parallel design for the CTA bus, while for the school bus there will be a new and a retrofit parallel design. All vehicle simulations and structured testing will be performed using ADVISOR, as well as other software packages available in the Power Electronics and Motor Drives Laboratory at IIT. Designed heavy-duty vehicles will be simulated and their performance as well as fuel economy and emissions under different conditions will be studied.
Deliverables for IPRO 342: Hybrid Electric Vehicles: Simulation, Design, and Implementation for the Spring 2006 semester
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

Title: De (semester?), IPRO 342: Hybrid Electric Vehicles - Simulation Design Implementation IPRO 342 Abstract Sp06
Creator: Martin, Ana, Ghosh, Shameek, Fleming, Robert, Lolwaczny, Dan, Lee, Jae Suk, Warner, Alexander, Sharadendu, Dipti, Shenoy, Pradeep, Vadgaama, Jasmine, Locascio, Kevin, Hernandez, Jose, Oh, Taekmin, Mulhall, Priscilla, Patel, Sapna
Date: 2006-05, 2006-05
Description: IPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit...
Show moreIPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit parallel design for the CTA bus, while for the school bus there will be a new and a retrofit parallel design. All vehicle simulations and structured testing will be performed using ADVISOR, as well as other software packages available in the Power Electronics and Motor Drives Laboratory at IIT. Designed heavy-duty vehicles will be simulated and their performance as well as fuel economy and emissions under different conditions will be studied.
Deliverables for IPRO 342: Hybrid Electric Vehicles: Simulation, Design, and Implementation for the Spring 2006 semester
Show less

Title: De (semester?), IPRO 342: Hybrid Electric Vehicles - Simulation Design Implementation IPRO 342 Final Report Sp06
Creator: Martin, Ana, Ghosh, Shameek, Fleming, Robert, Lolwaczny, Dan, Lee, Jae Suk, Warner, Alexander, Sharadendu, Dipti, Shenoy, Pradeep, Vadgaama, Jasmine, Locascio, Kevin, Hernandez, Jose, Oh, Taekmin, Mulhall, Priscilla, Patel, Sapna
Date: 2006-05, 2006-05
Description: IPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit...
Show moreIPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit parallel design for the CTA bus, while for the school bus there will be a new and a retrofit parallel design. All vehicle simulations and structured testing will be performed using ADVISOR, as well as other software packages available in the Power Electronics and Motor Drives Laboratory at IIT. Designed heavy-duty vehicles will be simulated and their performance as well as fuel economy and emissions under different conditions will be studied.
Deliverables for IPRO 342: Hybrid Electric Vehicles: Simulation, Design, and Implementation for the Spring 2006 semester
Show less

Title: De (semester?), IPRO 342
Creator: Martin, Ana, Ghosh, Shameek, Fleming, Robert, Lolwaczny, Dan, Lee, Jae Suk, Warner, Alexander, Sharadendu, Dipti, Shenoy, Pradeep, Vadgaama, Jasmine, Locascio, Kevin, Hernandez, Jose, Oh, Taekmin, Mulhall, Priscilla, Patel, Sapna
Date: 2006-05, 2006-05
Description: IPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit...
Show moreIPRO 342 aims to complete the conversion of a CTA bus and a school bus from conventional vehicles to hybrid. There will be one retrofit parallel design for the CTA bus, while for the school bus there will be a new and a retrofit parallel design. All vehicle simulations and structured testing will be performed using ADVISOR, as well as other software packages available in the Power Electronics and Motor Drives Laboratory at IIT. Designed heavy-duty vehicles will be simulated and their performance as well as fuel economy and emissions under different conditions will be studied.
Deliverables for IPRO 342: Hybrid Electric Vehicles: Simulation, Design, and Implementation for the Spring 2006 semester
Show less

Title: Improving Energy‐Efficient and Offering Quality Audio for Mobile Devices (Semester Unknown) IPRO 344
Creator: Choi, Gilsu, Cho, Hwansung, Godfrey, Jarrod, Kwak, Nohhyup, Mikulka, Michael, Park, Yujin, Spears, Donald, Song, Chang, Sun, Cheng, Terry, Nastasja, Wakhlu, Govind, Zhang, Yu
Date: 2008, 2008-05
Description: IPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in...
Show moreIPRO 344 was founded by Dr. Wong for the Fall 2007 semester with a stated long term purpose of studying and improving technologies for use in low‐power mobile audio applications. IPRO 344 had been outlined as the first in a multi‐semester project, with each subsequent semester building on the work of the previous semesters and a final objective of providing a diverse and complete toolkit for low‐power mobile audio applications. The current trends in social‐electronic integration are indicative of a level of “Ambient Computing”. That is, providing users with electronic services independent of their physical location or condition. Examples of this new form of integration can be seen in everything from cell‐phones, portable music players, portable gaming devices, laptops, personal digital assistants (PDAs), and most recently smart‐phones. For this entire generation of new devices, one of the most critical design factors to emerge is that of power efficiency. Users are demanding smaller and lighter devices, more features and more powerful processing power, and longer battery times. Unfortunately, improvements in the power density of consumer level batteries are significantly lacking behind user demands, bringing about the increasingly urgent need for exceptionally energy‐efficient technologies upon which the next generation of devices can be built. For the scope of this semester’s IPRO, we will focus on the amplification stage of mobile audio applications. Final Signal amplification for mobile audio devices can reasonably be in the range of several watts, and can make up significant portions of a devices power budget. Furthermore,traditional amplifiers are limited by a tradeoff between low efficiencies and audio distortion. Lower efficiencies further increase power consumption, and require additional hardware to dissipate waste heat, while higher distortion levels are considered unacceptable by many users.
Deliverables
Show less

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