Search results
(1 - 17 of 17)
- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319: Assisting Cardiac Arrest Patients IPRO 319 Poster F08
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
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- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319: Assisting Cardiac Arrest Patients IPRO 319 Final ReportF08
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
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- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319: Assisting Cardiac Arrest Patients IPRO 319 Project Plan F08
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
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- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319: Assisting Cardiac Arrest Patients IPRO 319 Final Presentation F08
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
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- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319: Assisting Cardiac Arrest Patients IPRO 319 MidTerm Presentation F08
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
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- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319: Assisting Cardiac Arrest Patients IPRO 319 Abstract F08
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
Show less
- Title
- Assisting Cardiac Arrest Patients (Semester Unknown) IPRO 319
- Creator
- Alemayehu, Matti, Bunce, Alex, Jessica, Shaw, Toe, Myint, Untiveros, Gustavo, Zhang, Caidi, Jose, Jerry, Butkovich, Paul, Cosenza, Matthew, Martin, Rebecca
- Date
- 2008, 2008-12
- Description
-
Sudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the...
Show moreSudden Cardiac Arrest is a leading cause of death in the United States, accounting for an estimated 325,000 deaths each year according to the Heart Rhythm Foundation. Cardiac arrest is different from a typical heart attack because it involves a complete stopping of the heart. Brain injury is likely to occur if the cardiac arrest is untreated for more than 5 minutes and a person cannot be revived after 10 minutes of no action. This is because the arrest sets off a chain of metabolic reactions, which leads to swelling of the brain tissue. Cardiac arrest results in ischemia reperfusion injury, which is when circulation is restored and high levels of oxygen rich blood rushes back into the brain causing brain damage. Decreasing the metabolism of the victim may result in a decrease of ischemia reperfusion injury. Reducing the oxygen level that enters the body when the victim revives and slowly increasing this level may also reduce reperfusion injury. However, current procedures dictate that 100% oxygen be given to cardiac arrest victim.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Final Presentation Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Poster3 Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Ethics Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Project Plan Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Poster Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Brochure Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Final Report Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 MidTerm Presentation Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
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- Title
- Large Scale Structure Design (Semester Unknown) IPRO 315: Large Scale Structure Design IPRO 315 Poster2 Sp08
- Creator
- Brady, Brian, Butkovich, Paul, Chung, Chun, Dominikowski, Marek, Herbert, Greg, Hussaini, Muddasir, Magdel, Irina, Mallinger, Nicolle, Omeralovic, Enis, Palma, Jennifer, Rathakrishnan, Malar, Ratnani, Shoaib, Russeva, Diyana, Russo, Ben, Shim, Mary, Sisay, Mary, Varhegyi, Aron, Velichekov, Veselin
- Date
- 2008, 2008-05
- Description
-
The plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this...
Show moreThe plan for this IPRO is to develop a design for a large scale parking garage that can accommodate about 500 cars. The objective of this project is to develop a design that goes beyond the standard parking systems used today. Rather, the attempt is to have a design which is more representative of “parking garages of future.” And as such, such features as quick handling of incoming and outgoing cars, efficiency in storage and aesthetics are considered in design. The building will be completely self-sufficient and will have to incorporate the architecture of the various buildings on campus. The design could have separate entrance and exit ramp towers, ramps incorporated with parking, or the futuristic design may be automated. An automated system will include a vehicle elevator of lift system to move the vehicle so the driver does not have to. The structure could be built with reinforced concrete or steel. The design will also include accessibility following the requirements set forth in the Americans with Disabilities Act.
Deliverables
Show less