際際滷shows by User: khalilfathi / http://www.slideshare.net/images/logo.gif 際際滷shows by User: khalilfathi / Sun, 22 Nov 2015 21:49:30 GMT 際際滷Share feed for 際際滷shows by User: khalilfathi Application of mems gyroscope in navigation of tunnel boring machine /slideshow/application-of-mems-gyroscope-in-navigation-of-tunnel-boring-machine/55394732 applicationofmemsgyroscopeinnavigationoftunnelboringmachine-151122214930-lva1-app6892
MEMS gyroscope sensor is used in systems of determining the real location of movable things and conducting the model airplanes. In this study a new plan by the name of GEO (Geography) and by using of MEMS parts will be introduced with TBM (Tunnel Boring Machine) for further control of passed route that calculates correct route by measuring head deviation amount of boring machine from real north axis and sends to control system. After introducing present methods and tools that used in conducting tunnel boring machines of first line in Tabriz subway, profile data of previous planned route are compared with measurement and calculated GEO system`s data and then the amount of existing errors in selected route are designed.]]>
MEMS gyroscope sensor is used in systems of determining the real location of movable things and conducting the model airplanes. In this study a new plan by the name of GEO (Geography) and by using of MEMS parts will be introduced with TBM (Tunnel Boring Machine) for further control of passed route that calculates correct route by measuring head deviation amount of boring machine from real north axis and sends to control system. After introducing present methods and tools that used in conducting tunnel boring machines of first line in Tabriz subway, profile data of previous planned route are compared with measurement and calculated GEO system`s data and then the amount of existing errors in selected route are designed.]]> Sun, 22 Nov 2015 21:49:30 GMT /slideshow/application-of-mems-gyroscope-in-navigation-of-tunnel-boring-machine/55394732 khalilfathi@slideshare.net(khalilfathi) Application of mems gyroscope in navigation of tunnel boring machine khalilfathi MEMS gyroscope sensor is used in systems of determining the real location of movable things and conducting the model airplanes. In this study a new plan by the name of GEO (Geography) and by using of MEMS parts will be introduced with TBM (Tunnel Boring Machine) for further control of passed route that calculates correct route by measuring head deviation amount of boring machine from real north axis and sends to control system. After introducing present methods and tools that used in conducting tunnel boring machines of first line in Tabriz subway, profile data of previous planned route are compared with measurement and calculated GEO system`s data and then the amount of existing errors in selected route are designed. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/applicationofmemsgyroscopeinnavigationoftunnelboringmachine-151122214930-lva1-app6892-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> MEMS gyroscope sensor is used in systems of determining the real location of movable things and conducting the model airplanes. In this study a new plan by the name of GEO (Geography) and by using of MEMS parts will be introduced with TBM (Tunnel Boring Machine) for further control of passed route that calculates correct route by measuring head deviation amount of boring machine from real north axis and sends to control system. After introducing present methods and tools that used in conducting tunnel boring machines of first line in Tabriz subway, profile data of previous planned route are compared with measurement and calculated GEO system`s data and then the amount of existing errors in selected route are designed.
Application of mems gyroscope in navigation of tunnel boring machine from khalil fathi
]]> 1081 8 https://cdn.slidesharecdn.com/ss_thumbnails/applicationofmemsgyroscopeinnavigationoftunnelboringmachine-151122214930-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Modeling, Simulation and Design of a Circular Diaphragm Pressure Sensor /slideshow/modeling-simulation-and-design-of-a-circular-diaphragm-pressure-sensor/55394142 keywordspressuresensor-151122212334-lva1-app6892
This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement.]]>
This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement.]]> Sun, 22 Nov 2015 21:23:34 GMT /slideshow/modeling-simulation-and-design-of-a-circular-diaphragm-pressure-sensor/55394142 khalilfathi@slideshare.net(khalilfathi) Modeling, Simulation and Design of a Circular Diaphragm Pressure Sensor khalilfathi This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/keywordspressuresensor-151122212334-lva1-app6892-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement.
Modeling, Simulation and Design of a Circular Diaphragm Pressure Sensor from khalil fathi
]]> 1075 5 https://cdn.slidesharecdn.com/ss_thumbnails/keywordspressuresensor-151122212334-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 Design mems presure sensor /slideshow/design-mems-presure-sensor/55393562 designmemspresuresensor-151122205857-lva1-app6892
This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement. First this paper created the mathematical calculation and then models the finite element analysis of the diaphragm using ANSYS and determined the pressure sensor in the range of 25MPa with circular diaphragm is designed, which also reflects the choice of correct design after analyzing the effect of diaphragm thickness, location and shapes of piezoresistor.]]>
This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement. First this paper created the mathematical calculation and then models the finite element analysis of the diaphragm using ANSYS and determined the pressure sensor in the range of 25MPa with circular diaphragm is designed, which also reflects the choice of correct design after analyzing the effect of diaphragm thickness, location and shapes of piezoresistor.]]> Sun, 22 Nov 2015 20:58:57 GMT /slideshow/design-mems-presure-sensor/55393562 khalilfathi@slideshare.net(khalilfathi) Design mems presure sensor khalilfathi This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement. First this paper created the mathematical calculation and then models the finite element analysis of the diaphragm using ANSYS and determined the pressure sensor in the range of 25MPa with circular diaphragm is designed, which also reflects the choice of correct design after analyzing the effect of diaphragm thickness, location and shapes of piezoresistor. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/designmemspresuresensor-151122205857-lva1-app6892-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> This paper aim in design and analysis of MEMS Pressure Sensor by using ANSYS software. A diaphragm based MEMS sensor in the range of 25MPa by measured center deflection of the circular pressure-sensitive and using the strain gauge for measurement. First this paper created the mathematical calculation and then models the finite element analysis of the diaphragm using ANSYS and determined the pressure sensor in the range of 25MPa with circular diaphragm is designed, which also reflects the choice of correct design after analyzing the effect of diaphragm thickness, location and shapes of piezoresistor.
Design mems presure sensor from khalil fathi
]]> 404 6 https://cdn.slidesharecdn.com/ss_thumbnails/designmemspresuresensor-151122205857-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 MEMS gyroscope sensor application for navigation tunnel boring machine(TBM) machine. /slideshow/mems-gyroscope-sensor-application-for-navigation-tunnel-boring-machinetbm-machine/55389418 mems2007offic-151122174357-lva1-app6891
愕愕惘 惘愕擧拆 惆惘 愕愕惠 悋 惠惺 惺惠 悋惺 悋悴愕悋 惠忰惘擧 惆悋惠 悋拆悋悋 惆 惘惆 悋愕惠悋惆 惘悋惘 擯惘惆.惆惘 悋 悋 愀惘忰 悴惆惆 惡悋 悋 悴惠 悋惡 悴愃惘悋悋 惡悋 悋愕惠悋惆 悋慍 愀惺悋惠 慍 悴惠 擧惠惘 悴惆惆 愕惘 愀 愆惆 惠愕愀 惆愕惠擯悋 忰悋惘 惠 惺惘 悽悋惆 愆惆 擧 惡悋 悋惆悋慍 擯惘 慍悋 悋忰惘悋 惆 惆愕惠擯悋 忰悋惘 悋慍 忰惘 愆悋 悋惺 愕惘 惶忰忰 惘悋 忰悋愕惡 惡 愕愕惠 擧惠惘 悋惘愕悋 擧惆. 拆愕 悋慍 惺惘 惘愆悋 悋惡慍悋惘悋 惺 惘惆 悋愕惠悋惆 惆惘 惆悋惠 惆愕惠擯悋 悋 忰悋惘 惠 悋 悽愀 擧 愀悋惘 愆惘 惠惡惘慍 惆悋惆 悋 拆惘 愕惘 悋慍 拆愆 愀惘悋忰 愆惆 惡悋 惆悋惆 悋 悋惆悋慍 擯惘 忰悋愕惡 愆惆 愕愕惠 悴惆惆 悴愃惘悋悋 悋愕 愆惆 慍悋 悽愀悋 悋 悴惆 惆惘 愕惘 悋惠悽悋惡 惘愕 擯惘惆惆.]]>
愕愕惘 惘愕擧拆 惆惘 愕愕惠 悋 惠惺 惺惠 悋惺 悋悴愕悋 惠忰惘擧 惆悋惠 悋拆悋悋 惆 惘惆 悋愕惠悋惆 惘悋惘 擯惘惆.惆惘 悋 悋 愀惘忰 悴惆惆 惡悋 悋 悴惠 悋惡 悴愃惘悋悋 惡悋 悋愕惠悋惆 悋慍 愀惺悋惠 慍 悴惠 擧惠惘 悴惆惆 愕惘 愀 愆惆 惠愕愀 惆愕惠擯悋 忰悋惘 惠 惺惘 悽悋惆 愆惆 擧 惡悋 悋惆悋慍 擯惘 慍悋 悋忰惘悋 惆 惆愕惠擯悋 忰悋惘 悋慍 忰惘 愆悋 悋惺 愕惘 惶忰忰 惘悋 忰悋愕惡 惡 愕愕惠 擧惠惘 悋惘愕悋 擧惆. 拆愕 悋慍 惺惘 惘愆悋 悋惡慍悋惘悋 惺 惘惆 悋愕惠悋惆 惆惘 惆悋惠 惆愕惠擯悋 悋 忰悋惘 惠 悋 悽愀 擧 愀悋惘 愆惘 惠惡惘慍 惆悋惆 悋 拆惘 愕惘 悋慍 拆愆 愀惘悋忰 愆惆 惡悋 惆悋惆 悋 悋惆悋慍 擯惘 忰悋愕惡 愆惆 愕愕惠 悴惆惆 悴愃惘悋悋 悋愕 愆惆 慍悋 悽愀悋 悋 悴惆 惆惘 愕惘 悋惠悽悋惡 惘愕 擯惘惆惆.]]> Sun, 22 Nov 2015 17:43:57 GMT /slideshow/mems-gyroscope-sensor-application-for-navigation-tunnel-boring-machinetbm-machine/55389418 khalilfathi@slideshare.net(khalilfathi) MEMS gyroscope sensor application for navigation tunnel boring machine(TBM) machine. khalilfathi 愕愕惘 惘愕擧拆 惆惘 愕愕惠 悋 惠惺 惺惠 悋惺 悋悴愕悋 惠忰惘擧 惆悋惠 悋拆悋悋 惆 惘惆 悋愕惠悋惆 惘悋惘 擯惘惆.惆惘 悋 悋 愀惘忰 悴惆惆 惡悋 悋 悴惠 悋惡 悴愃惘悋悋 惡悋 悋愕惠悋惆 悋慍 愀惺悋惠 慍 悴惠 擧惠惘 悴惆惆 愕惘 愀 愆惆 惠愕愀 惆愕惠擯悋 忰悋惘 惠 惺惘 悽悋惆 愆惆 擧 惡悋 悋惆悋慍 擯惘 慍悋 悋忰惘悋 惆 惆愕惠擯悋 忰悋惘 悋慍 忰惘 愆悋 悋惺 愕惘 惶忰忰 惘悋 忰悋愕惡 惡 愕愕惠 擧惠惘 悋惘愕悋 擧惆. 拆愕 悋慍 惺惘 惘愆悋 悋惡慍悋惘悋 惺 惘惆 悋愕惠悋惆 惆惘 惆悋惠 惆愕惠擯悋 悋 忰悋惘 惠 悋 悽愀 擧 愀悋惘 愆惘 惠惡惘慍 惆悋惆 悋 拆惘 愕惘 悋慍 拆愆 愀惘悋忰 愆惆 惡悋 惆悋惆 悋 悋惆悋慍 擯惘 忰悋愕惡 愆惆 愕愕惠 悴惆惆 悴愃惘悋悋 悋愕 愆惆 慍悋 悽愀悋 悋 悴惆 惆惘 愕惘 悋惠悽悋惡 惘愕 擯惘惆惆. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/mems2007offic-151122174357-lva1-app6891-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> 愕愕惘 惘愕擧拆 惆惘 愕愕惠 悋 惠惺 惺惠 悋惺 悋悴愕悋 惠忰惘擧 惆悋惠 悋拆悋悋 惆 惘惆 悋愕惠悋惆 惘悋惘 擯惘惆.惆惘 悋 悋 愀惘忰 悴惆惆 惡悋 悋 悴惠 悋惡 悴愃惘悋悋 惡悋 悋愕惠悋惆 悋慍 愀惺悋惠 慍 悴惠 擧惠惘 悴惆惆 愕惘 愀 愆惆 惠愕愀 惆愕惠擯悋 忰悋惘 惠 惺惘 悽悋惆 愆惆 擧 惡悋 悋惆悋慍 擯惘 慍悋 悋忰惘悋 惆 惆愕惠擯悋 忰悋惘 悋慍 忰惘 愆悋 悋惺 愕惘 惶忰忰 惘悋 忰悋愕惡 惡 愕愕惠 擧惠惘 悋惘愕悋 擧惆. 拆愕 悋慍 惺惘 惘愆悋 悋惡慍悋惘悋 惺 惘惆 悋愕惠悋惆 惆惘 惆悋惠 惆愕惠擯悋 悋 忰悋惘 惠 悋 悽愀 擧 愀悋惘 愆惘 惠惡惘慍 惆悋惆 悋 拆惘 愕惘 悋慍 拆愆 愀惘悋忰 愆惆 惡悋 惆悋惆 悋 悋惆悋慍 擯惘 忰悋愕惡 愆惆 愕愕惠 悴惆惆 悴愃惘悋悋 悋愕 愆惆 慍悋 悽愀悋 悋 悴惆 惆惘 愕惘 悋惠悽悋惡 惘愕 擯惘惆惆.
MEMS gyroscope sensor application for navigation tunnel boring machine(TBM) machine. from khalil fathi
]]> 528 7 https://cdn.slidesharecdn.com/ss_thumbnails/mems2007offic-151122174357-lva1-app6891-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 PID Control /slideshow/pid-control-54583027/54583027 astrom-ch6-151030221830-lva1-app6891
The PID controller is the most common form of feedback.]]>
The PID controller is the most common form of feedback.]]> Fri, 30 Oct 2015 22:18:30 GMT /slideshow/pid-control-54583027/54583027 khalilfathi@slideshare.net(khalilfathi) PID Control khalilfathi The PID controller is the most common form of feedback. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/astrom-ch6-151030221830-lva1-app6891-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> The PID controller is the most common form of feedback.
PID Control from khalil fathi
]]> 828 4 https://cdn.slidesharecdn.com/ss_thumbnails/astrom-ch6-151030221830-lva1-app6891-thumbnail.jpg?width=120&height=120&fit=bounds document Black http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 IEEE MULTIPHYSICS SIMULATION in COMSOL /slideshow/ieee-multiphysics-simulation-in-comsol/44257824 ieeecomsol2013-150204063519-conversion-gate02
DO YOUR SIMULATION results really tell you if your design is going to work? Accuracy sounds like an obvious thing to expect from the software youre using. But its not something you can take for granted. Thats why multiphysics makes such a big difference: It is essential for capturing and coupling all the physical effects that interact in a realistic simulation.]]>
DO YOUR SIMULATION results really tell you if your design is going to work? Accuracy sounds like an obvious thing to expect from the software youre using. But its not something you can take for granted. Thats why multiphysics makes such a big difference: It is essential for capturing and coupling all the physical effects that interact in a realistic simulation.]]> Wed, 04 Feb 2015 06:35:19 GMT /slideshow/ieee-multiphysics-simulation-in-comsol/44257824 khalilfathi@slideshare.net(khalilfathi) IEEE MULTIPHYSICS SIMULATION in COMSOL khalilfathi DO YOUR SIMULATION results really tell you if your design is going to work? Accuracy sounds like an obvious thing to expect from the software youre using. But its not something you can take for granted. Thats why multiphysics makes such a big difference: It is essential for capturing and coupling all the physical effects that interact in a realistic simulation. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/ieeecomsol2013-150204063519-conversion-gate02-thumbnail.jpg?width=120&amp;height=120&amp;fit=bounds" /><br> DO YOUR SIMULATION results really tell you if your design is going to work? Accuracy sounds like an obvious thing to expect from the software youre using. But its not something you can take for granted. Thats why multiphysics makes such a big difference: It is essential for capturing and coupling all the physical effects that interact in a realistic simulation.
IEEE MULTIPHYSICS SIMULATION in COMSOL from khalil fathi
]]> 3963 20 https://cdn.slidesharecdn.com/ss_thumbnails/ieeecomsol2013-150204063519-conversion-gate02-thumbnail.jpg?width=120&height=120&fit=bounds document 000000 http://activitystrea.ms/schema/1.0/post http://activitystrea.ms/schema/1.0/posted 0 https://cdn.slidesharecdn.com/profile-photo-khalilfathi-48x48.jpg?cb=1694423531 https://cdn.slidesharecdn.com/ss_thumbnails/applicationofmemsgyroscopeinnavigationoftunnelboringmachine-151122214930-lva1-app6892-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/application-of-mems-gyroscope-in-navigation-of-tunnel-boring-machine/55394732 Application of mems gy... https://cdn.slidesharecdn.com/ss_thumbnails/keywordspressuresensor-151122212334-lva1-app6892-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/modeling-simulation-and-design-of-a-circular-diaphragm-pressure-sensor/55394142 Modeling, Simulation a... https://cdn.slidesharecdn.com/ss_thumbnails/designmemspresuresensor-151122205857-lva1-app6892-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/design-mems-presure-sensor/55393562 Design mems presure se...