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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Final Presentation F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Final Report F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Poster3 F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Poster4 F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Poster F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Brochure F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Ethics F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Project Plan F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Mid Term Presentation F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- Fab Lab (Semester Unknown) IPRO 333: Fab Lab IPRO 333 Poster2 F08
- Creator
- Brassil, Michael, Lamonica, Regina, Luciani, Joseph, Ly, Christine, Martinez, Jessica, Martinez, Michael, Murman, Patricia, Ptak, Treyson, Reyes, Ivan, Villa, Jacqueline
- Date
- 2008, 2008-12
- Description
-
Fabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide...
Show moreFabrication Laboratories (Fab Labs) were started as a community outreach program by the Massachusetts Institute of Technology to provide digital fabrication tools for rapid prototyping to the general public. The Museum of Science and Industry in Chicago (MSI) has partnered with this IPRO to further develop their existing Fab Lab. IPRO 333 has been assigned the task of working with the Fab Lab administrators to design methodologies for furthering the use of the laboratory and determining its end goals for both the museum and the community. Once these goals are established, we will support them with a list of projects that we will create and execute. By working with the lab directors to broaden the possible uses of the lab, we hope to encourage hands-on learning in local schools. This will promote membership at MSI and involve the community in science and technology programs and education. To accomplish this, we have broken into two teams, each of which will focus on a different audience. The first team will be responsible for designing and creating programs for more advanced and knowledgeable users of the equipment specific to the Fab Lab, such as the students enrolled in the Science Achievers program as well as museum members; the second team will be responsible for designing and implementing programs for less advanced users with more constrained timeframes, such as visiting families or groups of school children.
Deliverables
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- Title
- We would like to develop a system that measures the applied torque at a bicycle crank set. In contrast to current solutions, we want to be able to retrofit our system to existing crank sets, obviating the need to abandon parts that the bicyclist already owns. In principle, according to preliminary tests performed at the MMAE department, this can be done using sets of quite inexpensive strain gauges. However, being able to get accurate torque measurements will require some advanced processing of signals from the strain gauges. These signals can then be transmitted wirelessly to a bicycle computer like the Edge 705 that the global positioning system corporation Garmin released this spring. There is a defined wireless protocol, called ANT+Sport, which has been developed specifically for the purpose of transmitting exercise data, such as power output or heart rate, to small computers. Chipsets and development kits for this protocol are also available commercially. Therefore, our task will be to find an optimal configuration of strain gauges that will be attached to the crank set, and to develop an algorithm to process the strain gauge data in order to isolate a signal that is proportional to the applied torque. This signal will then be transmitted to the bicycle computer for display and storage (Semester Unknown) IPRO 325: Developing Affordable and Sustainable Energy Solutions for the World’s Rural Poor IPRO 325 Brochure F08
- Creator
- Christo, Robert, Gandhi, Angela, Ongchangco, Katrina, Paranthan, Reema, Tsukioka, Tomomi, Yun, Suk Hwan
- Date
- 2008, 2008-12
- Description
-
An estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died...
Show moreAn estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died in 2002 as a result of diarrhea related diseases which are contracted from polluted water; 90% of whom were children. Out of 792 million people suffering from malnutrition, 5 million children die each year. 4 out of 5 of these 792 million people do not have access to needed fruits and vegetables. For the past four semesters, IPRO 325 has focused on helping solve problems of the world’s rural poor. This semester, the team is focused on improving last semester’s designs and developing better field manuals. Our team implemented our past projects in Sincape, Peru last semester, and we also intend to go back to look at them after a semester and implement more of our projects.
Deliverables
Show less
- Title
- We would like to develop a system that measures the applied torque at a bicycle crank set. In contrast to current solutions, we want to be able to retrofit our system to existing crank sets, obviating the need to abandon parts that the bicyclist already owns. In principle, according to preliminary tests performed at the MMAE department, this can be done using sets of quite inexpensive strain gauges. However, being able to get accurate torque measurements will require some advanced processing of signals from the strain gauges. These signals can then be transmitted wirelessly to a bicycle computer like the Edge 705 that the global positioning system corporation Garmin released this spring. There is a defined wireless protocol, called ANT+Sport, which has been developed specifically for the purpose of transmitting exercise data, such as power output or heart rate, to small computers. Chipsets and development kits for this protocol are also available commercially. Therefore, our task will be to find an optimal configuration of strain gauges that will be attached to the crank set, and to develop an algorithm to process the strain gauge data in order to isolate a signal that is proportional to the applied torque. This signal will then be transmitted to the bicycle computer for display and storage (Semester Unknown) IPRO 325
- Creator
- Christo, Robert, Gandhi, Angela, Ongchangco, Katrina, Paranthan, Reema, Tsukioka, Tomomi, Yun, Suk Hwan
- Date
- 2008, 2008-12
- Description
-
An estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died...
Show moreAn estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died in 2002 as a result of diarrhea related diseases which are contracted from polluted water; 90% of whom were children. Out of 792 million people suffering from malnutrition, 5 million children die each year. 4 out of 5 of these 792 million people do not have access to needed fruits and vegetables. For the past four semesters, IPRO 325 has focused on helping solve problems of the world’s rural poor. This semester, the team is focused on improving last semester’s designs and developing better field manuals. Our team implemented our past projects in Sincape, Peru last semester, and we also intend to go back to look at them after a semester and implement more of our projects.
Deliverables
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- Title
- Human Orthotic and Prosthetic Education (Semester Unknown) IPRO 309: Human Orthotic and Prosthetic Education IPRO309 Poster2 Sp09
- Creator
- Bhatia, Mrigank, Castro, Manuel, Chan, Wen, Cosenza, Matthew, Fischer, Stephanie, Gupta, Pallavi, Kang, Xuan, Lucas, Stephanie, Maddamma, Todd, Purcell, Amber, Quandt, Gregory, Reibel, Mark, Ruidera, Ryan, Sardi, Carlos
- Date
- 2009, 2009-12
- Description
-
Inter-professional Project 309 is an ongoing venture spanning seven semesters at Illinois Institute of Technology working constantly toward...
Show moreInter-professional Project 309 is an ongoing venture spanning seven semesters at Illinois Institute of Technology working constantly toward the goal of developing and supporting the first Category III Orthotics and Prosthetics educational program in Latin America to be accredited by the International Society of Prosthetics and Orthotics (ISPO).
Deliverables
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- Title
- Human Orthotic and Prosthetic Education (Semester Unknown) IPRO 309: Human Orthotic and Prosthetic Education IPRO309 Project Plan Sp09_redacted
- Creator
- Bhatia, Mrigank, Castro, Manuel, Chan, Wen, Cosenza, Matthew, Fischer, Stephanie, Gupta, Pallavi, Kang, Xuan, Lucas, Stephanie, Maddamma, Todd, Purcell, Amber, Quandt, Gregory, Reibel, Mark, Ruidera, Ryan, Sardi, Carlos
- Date
- 2009, 2009-12
- Description
-
Inter-professional Project 309 is an ongoing venture spanning seven semesters at Illinois Institute of Technology working constantly toward...
Show moreInter-professional Project 309 is an ongoing venture spanning seven semesters at Illinois Institute of Technology working constantly toward the goal of developing and supporting the first Category III Orthotics and Prosthetics educational program in Latin America to be accredited by the International Society of Prosthetics and Orthotics (ISPO).
Deliverables
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- Title
- Human Orthotic and Prosthetic Education (Semester Unknown) IPRO 309: Human Orthotic and Prosthetic Education IPRO309 Poster1 Sp09
- Creator
- Bhatia, Mrigank, Castro, Manuel, Chan, Wen, Cosenza, Matthew, Fischer, Stephanie, Gupta, Pallavi, Kang, Xuan, Lucas, Stephanie, Maddamma, Todd, Purcell, Amber, Quandt, Gregory, Reibel, Mark, Ruidera, Ryan, Sardi, Carlos
- Date
- 2009, 2009-12
- Description
-
Inter-professional Project 309 is an ongoing venture spanning seven semesters at Illinois Institute of Technology working constantly toward...
Show moreInter-professional Project 309 is an ongoing venture spanning seven semesters at Illinois Institute of Technology working constantly toward the goal of developing and supporting the first Category III Orthotics and Prosthetics educational program in Latin America to be accredited by the International Society of Prosthetics and Orthotics (ISPO).
Deliverables
Show less
- Title
- We would like to develop a system that measures the applied torque at a bicycle crank set. In contrast to current solutions, we want to be able to retrofit our system to existing crank sets, obviating the need to abandon parts that the bicyclist already owns. In principle, according to preliminary tests performed at the MMAE department, this can be done using sets of quite inexpensive strain gauges. However, being able to get accurate torque measurements will require some advanced processing of signals from the strain gauges. These signals can then be transmitted wirelessly to a bicycle computer like the Edge 705 that the global positioning system corporation Garmin released this spring. There is a defined wireless protocol, called ANT+Sport, which has been developed specifically for the purpose of transmitting exercise data, such as power output or heart rate, to small computers. Chipsets and development kits for this protocol are also available commercially. Therefore, our task will be to find an optimal configuration of strain gauges that will be attached to the crank set, and to develop an algorithm to process the strain gauge data in order to isolate a signal that is proportional to the applied torque. This signal will then be transmitted to the bicycle computer for display and storage (Semester Unknown) IPRO 325: Developing Affordable and Sustainable Energy Solutions for the World’s Rural Poor IPRO 325 Project Plan F08
- Creator
- Christo, Robert, Gandhi, Angela, Ongchangco, Katrina, Paranthan, Reema, Tsukioka, Tomomi, Yun, Suk Hwan
- Date
- 2008, 2008-12
- Description
-
An estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died...
Show moreAn estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died in 2002 as a result of diarrhea related diseases which are contracted from polluted water; 90% of whom were children. Out of 792 million people suffering from malnutrition, 5 million children die each year. 4 out of 5 of these 792 million people do not have access to needed fruits and vegetables. For the past four semesters, IPRO 325 has focused on helping solve problems of the world’s rural poor. This semester, the team is focused on improving last semester’s designs and developing better field manuals. Our team implemented our past projects in Sincape, Peru last semester, and we also intend to go back to look at them after a semester and implement more of our projects.
Deliverables
Show less
- Title
- We would like to develop a system that measures the applied torque at a bicycle crank set. In contrast to current solutions, we want to be able to retrofit our system to existing crank sets, obviating the need to abandon parts that the bicyclist already owns. In principle, according to preliminary tests performed at the MMAE department, this can be done using sets of quite inexpensive strain gauges. However, being able to get accurate torque measurements will require some advanced processing of signals from the strain gauges. These signals can then be transmitted wirelessly to a bicycle computer like the Edge 705 that the global positioning system corporation Garmin released this spring. There is a defined wireless protocol, called ANT+Sport, which has been developed specifically for the purpose of transmitting exercise data, such as power output or heart rate, to small computers. Chipsets and development kits for this protocol are also available commercially. Therefore, our task will be to find an optimal configuration of strain gauges that will be attached to the crank set, and to develop an algorithm to process the strain gauge data in order to isolate a signal that is proportional to the applied torque. This signal will then be transmitted to the bicycle computer for display and storage (Semester Unknown) IPRO 325: Developing Affordable and Sustainable Energy Solutions for the World’s Rural Poor IPRO 325 Poster3 F08
- Creator
- Christo, Robert, Gandhi, Angela, Ongchangco, Katrina, Paranthan, Reema, Tsukioka, Tomomi, Yun, Suk Hwan
- Date
- 2008, 2008-12
- Description
-
An estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died...
Show moreAn estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died in 2002 as a result of diarrhea related diseases which are contracted from polluted water; 90% of whom were children. Out of 792 million people suffering from malnutrition, 5 million children die each year. 4 out of 5 of these 792 million people do not have access to needed fruits and vegetables. For the past four semesters, IPRO 325 has focused on helping solve problems of the world’s rural poor. This semester, the team is focused on improving last semester’s designs and developing better field manuals. Our team implemented our past projects in Sincape, Peru last semester, and we also intend to go back to look at them after a semester and implement more of our projects.
Deliverables
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- Title
- Increasing Computer Science Awareness (Semester Unknown) IPRO 321
- Creator
- Chin, Jason, Xing, Jianqi, Mitillos, Christos, Edwards, Herbert, Aguilar, Sergio, Ahsan, Saad, Martinez, Eddie, Chen, Qiaoqiao
- Date
- 2009, 2009-05
- Description
-
Description: The project team's goal is to get high school students excited about Computer Science, and to ultimately increase the number of...
Show moreDescription: The project team's goal is to get high school students excited about Computer Science, and to ultimately increase the number of students in the Chicago area taking Computer Science (CS) courses in high school and college. The team will accomplish this by debunking myths and increasing the un- derstanding of what CS and computational thinking entails, explaining and providing evidence for why CS is important, and emphasizing importance of attracting women and underrepresented minorities to CS.
Deliverables
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- Title
- We would like to develop a system that measures the applied torque at a bicycle crank set. In contrast to current solutions, we want to be able to retrofit our system to existing crank sets, obviating the need to abandon parts that the bicyclist already owns. In principle, according to preliminary tests performed at the MMAE department, this can be done using sets of quite inexpensive strain gauges. However, being able to get accurate torque measurements will require some advanced processing of signals from the strain gauges. These signals can then be transmitted wirelessly to a bicycle computer like the Edge 705 that the global positioning system corporation Garmin released this spring. There is a defined wireless protocol, called ANT+Sport, which has been developed specifically for the purpose of transmitting exercise data, such as power output or heart rate, to small computers. Chipsets and development kits for this protocol are also available commercially. Therefore, our task will be to find an optimal configuration of strain gauges that will be attached to the crank set, and to develop an algorithm to process the strain gauge data in order to isolate a signal that is proportional to the applied torque. This signal will then be transmitted to the bicycle computer for display and storage (Semester Unknown) IPRO 325: Developing Affordable and Sustainable Energy Solutions for the World’s Rural Poor IPRO 325 Poster2 F08
- Creator
- Christo, Robert, Gandhi, Angela, Ongchangco, Katrina, Paranthan, Reema, Tsukioka, Tomomi, Yun, Suk Hwan
- Date
- 2008, 2008-12
- Description
-
An estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died...
Show moreAn estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died in 2002 as a result of diarrhea related diseases which are contracted from polluted water; 90% of whom were children. Out of 792 million people suffering from malnutrition, 5 million children die each year. 4 out of 5 of these 792 million people do not have access to needed fruits and vegetables. For the past four semesters, IPRO 325 has focused on helping solve problems of the world’s rural poor. This semester, the team is focused on improving last semester’s designs and developing better field manuals. Our team implemented our past projects in Sincape, Peru last semester, and we also intend to go back to look at them after a semester and implement more of our projects.
Deliverables
Show less
- Title
- We would like to develop a system that measures the applied torque at a bicycle crank set. In contrast to current solutions, we want to be able to retrofit our system to existing crank sets, obviating the need to abandon parts that the bicyclist already owns. In principle, according to preliminary tests performed at the MMAE department, this can be done using sets of quite inexpensive strain gauges. However, being able to get accurate torque measurements will require some advanced processing of signals from the strain gauges. These signals can then be transmitted wirelessly to a bicycle computer like the Edge 705 that the global positioning system corporation Garmin released this spring. There is a defined wireless protocol, called ANT+Sport, which has been developed specifically for the purpose of transmitting exercise data, such as power output or heart rate, to small computers. Chipsets and development kits for this protocol are also available commercially. Therefore, our task will be to find an optimal configuration of strain gauges that will be attached to the crank set, and to develop an algorithm to process the strain gauge data in order to isolate a signal that is proportional to the applied torque. This signal will then be transmitted to the bicycle computer for display and storage (Semester Unknown) IPRO 325: Developing Affordable and Sustainable Energy Solutions for the World’s Rural Poor IPRO 325 Poster4 F08
- Creator
- Christo, Robert, Gandhi, Angela, Ongchangco, Katrina, Paranthan, Reema, Tsukioka, Tomomi, Yun, Suk Hwan
- Date
- 2008, 2008-12
- Description
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An estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died...
Show moreAn estimated 2.7 million people die prematurely each year due to smoke and toxic emissions from wood burning. Around 3.1 million people died in 2002 as a result of diarrhea related diseases which are contracted from polluted water; 90% of whom were children. Out of 792 million people suffering from malnutrition, 5 million children die each year. 4 out of 5 of these 792 million people do not have access to needed fruits and vegetables. For the past four semesters, IPRO 325 has focused on helping solve problems of the world’s rural poor. This semester, the team is focused on improving last semester’s designs and developing better field manuals. Our team implemented our past projects in Sincape, Peru last semester, and we also intend to go back to look at them after a semester and implement more of our projects.
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