'+pages+''); $('.stream > div:odd').addClass('bgr_color'); updateHeight('#history'); }); window.activateTabArea = ensure(function(tab, areas){ var parsed = false; var parts = (areas || '').split('/'); window.fsonload = $.inArray('fs', parts) >= 0; if(fsonload){ parts.splice(parts.indexOf('fs'), 1); } var replayMode = false; if($.inArray('replay', parts)>=0){ replayMode = 'replay'; } var noSoundMode = false; if($.inArray('nosound', parts)>=0){ noSoundMode = 'nosound'; } if($.inArray('ns', parts)>=0){ noSoundMode = 'ns'; } var previewMode = null; if($.inArray('p', parts)>=0){ previewMode = 'p'; } if($.inArray('preview', parts)>=0){ previewMode = 'preview'; } if($.inArray('repeat', parts)>=0){ replayMode = 'repeat'; } if($.inArray('r', parts)>=0 || $.inArray('ro', parts)>=0){ replayMode = 'r'; } if(replayMode){ parts.splice(parts.indexOf(replayMode), 1); } if(noSoundMode){ parts.splice(parts.indexOf(noSoundMode), 1); } if(previewMode){ parts.splice(parts.indexOf(previewMode), 1); } if(previewMode){ if(!parts.length){ parts = ['1-14', '999:59']; } } var area = parts[0]; if(tab == 'history' && false){ var page = parseInt(area || '1') || 1; $.ajax({ url: 'https://login.wn.com/recent/json/?pp='+history_pp+'&skip='+history_pp*(page-1), dataType: 'jsonp', success: function(response){ $ensure(function(){ renderHistory(response, page); }); } }); return true; } if(tab == 'global_history' && false){ var page = parseInt(area || '1') || 1; globalHistory.fetchStream(page, '', function(){ updateHeight('#global_history'); }); return true; } if(tab == 'my_playlists' && false){ var page = parseInt(area || '1') || 1; myPlaylists.fetchStream(page, '', function(){ updateHeight('#my_playlists'); }); return true; } if(tab == 'my_videos' && false){ var page = parseInt(area || '1') || 1; myVideos.fetchStream(page, '', function(){ updateHeight('#my_videos'); }); return true; } if(tab == 'related_sites' && areas && matchPosition(areas)){ var seconds = parsePosition(areas); scrollRelated(seconds); return false; } if(matchPosition(area) || matchAction(area)){ parts.unshift('1'); area = parts[0]; } if(tab == 'expand' && area && area.match(/\d+/)) { var num = parseInt(area); if(num < 100){ //FIX ME. 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playShouldStart = null; } }; function loadMoreVideos(playerId, vp, start, finish, callback){ var playlistInfo = playlists[playerId-1]; if(playlistInfo.loading >= finish) return; playlistInfo.loading = finish; $.ajax({ url: '/api/upge/cheetah-photo-search/query_videos2', dataType: 'json', data: { query: playlistInfo.query, orderby: playlistInfo.orderby, start: start, count: finish-start }, success: function(response){ var pl = vp.getPlaylist().slice(0); pl.push.apply(pl, response); vp.setPlaylist(pl); callback(); } }); } if(parts.length == 1 && matchDash(parts[0])){ var pl = vp.getActualPlaylist(); var vids = parseDash(parts[0]); parts = []; for(var i = 0; i < vids.length; i++){ playQueue.push({ 'video': pl[vids[i]-1], 'start': 0, 'stop': null }) } if(vids.length){ if(vids[vids.length-1]-1>=pl.length){ loadMoreVideos(playerId, vp, pl.length, vids[vids.length-1], function(){ if(fsonload){ activateTabArea(tab, parts[0]+'/fs'); }else{ activateTabArea(tab, parts[0]); } var pls = vp.getPlaylist(); vp.playFromPlaylist(pls[pls.length-1]); vp.playVideo(); scrollToPlaylistPosition(vp); }); return true; } } if(playQueue){ playQueueUpdate(); vp.playVideo(); parsed = true; playShouldStart = 0; } } if(previewMode){ var vids = []; var dur = 0; var pl = vp.getActualPlaylist(); area = parts[0]; if(parts.length == 1 && matchPosition(parts[0])){ vids = parseDash('1-'+pl.length); dur = parsePosition(parts[0]); parts = []; }else if(parts.length == 1 && matchDash(parts[0])){ vids = parseDash(parts[0]); dur = parsePosition("999:59"); parts = []; } if(parts.length == 2 && matchDash(parts[0]) && matchPosition(parts[1])){ vids = parseDash(parts[0]); dur = parsePosition(parts[1]); parts = []; } for(var i = 0; i < vids.length; i++){ playQueue.push({ 'video': pl[vids[i]-1], 'start': 0, 'stop': dur }) } if(playQueue){ playQueueUpdate(); vp.playVideo(); parsed = true; } } if(parts.length>1){ for(var i = 0; i < parts.length; i++){ var sel = findMatchingVideo(vp, parts[i]); if(sel){ playQueue.push({ 'video': sel, 'start': 0, 'stop': null }) } } if(playQueue){ playQueueUpdate(); 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if(window.history && history.replaceState && document.location.hostname.match(/^(youtube\.)?(\w{2,3}\.)?wn\.com$/)){ if(path == main_tab || path == main_tab+'/' || path == '' || path == '/') { path = basepath; } else if( path.match('^'+main_tab+'/') ){ path = basepath + '/' + path.replace(main_tab+'/', '').replace('--','/'); } else { path = basepath + '/' + path.replace('--','/'); } if(document.location.search){ path += document.location.search; } if(window.lastHistory) { history.pushState(null, null, path); } else if(window.lastHistory != path){ history.replaceState(null, null, path); window.lastHistory = path; } } else{ path = path.replace('--','/'); if(path == main_tab || path == main_tab+'/' || path == '' || path == '/') { path = ''; } if(window.lastHistory != '/'+path){ window.location.hash = path? '/'+path : ''; window.lastHistory = '/'+path; } } }); $('.tabtrigger li a').live('click', ensure(function() { var tab = $(this).attr('id'); if(tab.substring(0,1) == '#'){ var name = tab.substring(1); if(name in menu_names){ name = menu_names[name][0]; } realTab = rev_names[name]; $('#'+realTab).show(); if(window.console && console.log) console.log("Triggering tab: "+name+(window.activeArea?" activeArea="+window.activeArea:'')); var path = name; if(window.activeArea){ path = path + '/' + window.activeArea; } if(tab.match(/#playlist\d+/) || tab.match(/#details\d+/)){ $('.multiple-playlists').show(); $('.related_playlist').show(); $('.longest_videos_playlist').show(); }else { $('.multiple-playlists').hide(); $('.related_playlist').hide(); $('.longest_videos_playlist').hide(); } // start the related script only when the tab is on screen showing if (tab.match(/related_sites/)) { if (mc) { mc.startCredits(); } } window.activeTab = realTab; addHistory(path); setTimeout(ensure(function(){ if(tab.match(/language--/)){ $('.tabtrigger').offscreentabs('activateTab', 'language'); } if(tab.match(/weather/)) { $('.tabtrigger').offscreentabs('activateTab', 'weather'); loadContinent(); } updateMenus(tab); updateHeight(); }), 10); } return false; })); }); -->

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  Ieee 1344

• remove the playlist
  Ieee 1344

• IEEE 1344
• IEEE 802.3
• IEEE 802.2
• Award
• Award (disambiguation)
• Award Software

IEEE 1344

IEEE 1344 is a standard that defines parameters for synchrophasors for power systems. The standard added extension to the IRIG-B time code to cover year, time quality, daylight saving time, local time offset and leap second information. IEEE 1344 was superseded by IEEE C37.118 in 2005 and the time extensions were adopted as part of the IRIG timing standard in the 2004 edition.

IRIG-B timecode consists of 100 bits, repeated each second. Every tenth bit is a "position identifier", and most of the remainder encode the current time (date, hour, minute and second). Bits 60–68 and 70–78 are reserved for other uses; IEEE 1344 is such a use. It defines the bits as follows:

The DST and leap warning bits are set no more than 59 seconds before the indicated change, and indicate the change at the end of the minute. During a leap second, the warning bit should be set, the seconds field should show "60", and the Straight Binary Seconds field should equal 60 + 60 × minutes + 3600 × hours. The next second, the leap second warning bit should be clear, and the SBS field will repeat. Since negative leap seconds have never happened, and almost certainly never will, the LS bit is always 0.

Read more

This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/IEEE_1344

IEEE 802.3

IEEE 802.3 is a working group and a collection of IEEE standards produced by the working group defining the physical layer and data link layer's media access control (MAC) of wired Ethernet. This is generally a local area network technology with some wide area network applications. Physical connections are made between nodes and/or infrastructure devices (hubs, switches, routers) by various types of copper or fiber cable.

802.3 is a technology that supports the IEEE 802.1 network architecture.

802.3 also defines LAN access method using CSMA/CD.

Communication Standards

See also

IEEE 802

IEEE 802.11, a set of wireless networking standards

IEEE 802.16, a set of WiMAX standards

IEEE Standards Association

References

Ethernet: IEEE 802.3 Local Area Network (LAN) protocols

External links

The IEEE 802.3 Working Group

Get IEEE 802.3 LAN/MAN CSMA/CD Access Method—Download 802.3 specifications.

Read more

This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/IEEE_802.3

IEEE 802.2

IEEE 802.2 is the original name of the ISO/IEC 8802-2 standard which defines Logical Link Control (LLC) as the upper portion of the data link layer of the OSI Model. The original standard developed by the Institute of Electrical and Electronics Engineers (IEEE) in collaboration with the American National Standards Institute (ANSI) was adopted by the International Organization for Standardization (ISO) in 1998, but it still remains an integral part of the family of IEEE 802 standards for local and metropolitan networks.

LLC is a software component that provides a uniform interface to the user of the data link service, usually the network layer. LLC may offer three types of services:

Unacknowledged connectionless mode services (mandatory)

Connection mode services (optional)

Acknowledged connectionless mode services (optional)

Conversely, the LLC uses the services of the Media Access Control (MAC), which is dependent on the specific transmission medium (Ethernet, Token Ring, FDDI, 802.11, etc.). Using LLC is compulsory for all IEEE 802 networks with the exception of Ethernet. It is also used in Fiber Distributed Data Interface (FDDI) which is not part of the IEEE 802 family.

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/IEEE_802.2

Award

An award is something given to a person, a group of people, or an organization to recognize their excellence in a certain field; a certificate of excellence. Awards are often signified by trophies, titles, certificates, commemorative plaques, medals, badges, pins, or ribbons. An award may carry a monetary prize given to the recipient; for example, the Nobel Prize for contributions to society or the Pulitzer Prize for literary achievements. An award may also simply be a public acknowledgment of excellence, without any tangible token or prize.

Overview

Awards can be given by any person or institution, although the prestige of an award usually depends on the status of the awarder. Usually, awards are given by an organization of some sort, or by the office of an official within an organization or government. For instance, a special presidential citation (as given by the President of the United States) is a public announcement giving an official place of honor (e.g., President Ronald Reagan gave a special presidential citation in 1984 to the Disney Channel for its excellent children's television programming.)

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Award

Award (disambiguation)

An award is a formal recognition.

Award also may refer to:

Civil-court award, a.k.a. damages

Industrial award, in Australian labor law

The Duke of Edinburgh's Award, a youth self-improvement awards programme

See also

Award Software

Read more

This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Award_(disambiguation)

Award Software

Award Software International Inc. was a BIOS manufacturer founded in 1983, and headquartered in Mountain View, California, United States.

History

On 24 October 1996, Award Software International Inc. announced its initial public offering.

On 16 June 1997, Award Software International Inc. announced the acquisition of BIOS upgrades provider Unicore Software, Inc. making it a subsidiary of Award.

On 16 April 1998, Phoenix Technologies Ltd. and Award Software International Inc. announced the completion of a definitive merger agreement, where Phoenix Technologies Ltd. would become the surviving corporate entity following the merger completion on 30 June 1998. The merger was completed on 28 September 1998.

After merger

After the Phoenix–Award merger, later revisions of Award BIOS still attribute copyright to Award Software Inc instead of Phoenix Technologies Ltd., including the UEFI firmware.

Subsidiaries

Award Software Europe

Award Software Hong Kong, Ltd

Award Software Japan, KK: Established in 1997-06-03.

Read more

This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Award_Software

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4:15

Firewire

• Order: Reorder
• Duration: 4:15
• Uploaded Date: 14 Nov 2017
• views: 53

Firewire is actually the IEEE-1344 standard interface for high speed, real time data transfer. There are two versions, the 1394a and 1394b which transfer data ...

Firewire is actually the IEEE-1344 standard interface for high speed, real time data transfer. There are two versions, the 1394a and 1394b which transfer data at 400 and 800 Mbps. From this lesson you’ll also learn which Firewire type uses the 6-pin connection vs. the 9-pin, and the pin count ratio for data transfer vs. power transfer. We’ll look at several devices to see and explain the differences between port and connectivity relationships, you’ll learn that the maximum number of devices that can be connected to a single port is 16, and why.

https://wn.com/Firewire

Firewire is actually the IEEE-1344 standard interface for high speed, real time data transfer. There are two versions, the 1394a and 1394b which transfer data at 400 and 800 Mbps. From this lesson you’ll also learn which Firewire type uses the 6-pin connection vs. the 9-pin, and the pin count ratio for data transfer vs. power transfer. We’ll look at several devices to see and explain the differences between port and connectivity relationships, you’ll learn that the maximum number of devices that can be connected to a single port is 16, and why.

• published: 14 Nov 2017
• views: 53

0:31

2016 leap second in IRIG-B timecode

• Order: Reorder
• Duration: 0:31
• Uploaded Date: 01 Jan 2017
• views: 772

In 2016, leap second was added to UTC time in 31.12.2016 23:59:60 UTC. Here we can see this event happening as decoded from IRIG-B timecode utilized wih IEEE134...

In 2016, leap second was added to UTC time in 31.12.2016 23:59:60 UTC. Here we can see this event happening as decoded from IRIG-B timecode utilized wih IEEE1344 support. NOTE: There's no sound in this video!

https://wn.com/2016_Leap_Second_In_Irig_B_Timecode

In 2016, leap second was added to UTC time in 31.12.2016 23:59:60 UTC. Here we can see this event happening as decoded from IRIG-B timecode utilized wih IEEE1344 support. NOTE: There's no sound in this video!

• published: 01 Jan 2017
• views: 772

1:21:20

Distinguished Talk 01: Low-power Circuits for IoT

• Order: Reorder
• Duration: 1:21:20
• Uploaded Date: 26 Jun 2020
• views: 935

The Distinguished Talks is a series of webinars on IC Design and IC Devices promoted by the IEEE SSCS-EDS South Brazil Joint-Chapter. The invited speakers are e...

The Distinguished Talks is a series of webinars on IC Design and IC Devices promoted by the IEEE SSCS-EDS South Brazil Joint-Chapter. The invited speakers are experts in the field of integrated circuits. Distinguished Talk 01: Low-power Circuits for IoT by Dr. Jorge Fernandes Abstract: After the telecommunications boom (connecting people) and the internet boom (connecting computers), IoT challenges to connect all “things”. IoT revolution is based on the availability of a massive amount of information coming from the data sensed and transmitted by a huge amount of Intelligent connected objects. One of the IoT drives is to connect objects with low-cost fully autonomous circuits, focused on extremely low-power to be battery-less. This talk addresses power harvesting (PH) circuits, clock circuits, and communication circuits that follow these trends and that can be used efficiently in low-duty-cycle operation modes. The techniques will accent mostly on RF PH, inductor-less oscillators, and IR-UWB transceivers. Short CV: Jorge Fernandes (S’97-M’00-SM’10) was born in Lisbon in 1966. He received the Degree in electrical engineering from the Instituto Superior Técnico (IST), Universidade de Lisboa, Portugal, in 1989, and the M.Sc., Ph.D., and Habilitation degrees from the same university in 1993, 2000, and 2010, respectively. He joined the teaching staff of the Department of Electrical Engineering at IST, in 1990, and has been with the Analog and Mixed-Mode Circuits Group, INESC-ID Lisboa, since 1989. He was a Visiting Scholar with the Delft University of Technology, Delft, The Netherlands, in 2000 and 2018, and Columbia University, New York, USA, in 2008. His current research interests include analog, mixed signal and RF circuits, with an emphasis on autonomous sensor circuits and low-power RF frontends. Dr. Fernandes has been a member of the Analog Signal Processing Technical Committee of the IEEE Circuits and Systems Society since 2006 and CASS representative on IEEE Technical Committee on RFID since 2015. He was the General Co-chair of the International Symposium on Circuits and Systems (ISCAS) in 2015.

https://wn.com/Distinguished_Talk_01_Low_Power_Circuits_For_Iot

The Distinguished Talks is a series of webinars on IC Design and IC Devices promoted by the IEEE SSCS-EDS South Brazil Joint-Chapter. The invited speakers are experts in the field of integrated circuits. Distinguished Talk 01: Low-power Circuits for IoT by Dr. Jorge Fernandes Abstract: After the telecommunications boom (connecting people) and the internet boom (connecting computers), IoT challenges to connect all “things”. IoT revolution is based on the availability of a massive amount of information coming from the data sensed and transmitted by a huge amount of Intelligent connected objects. One of the IoT drives is to connect objects with low-cost fully autonomous circuits, focused on extremely low-power to be battery-less. This talk addresses power harvesting (PH) circuits, clock circuits, and communication circuits that follow these trends and that can be used efficiently in low-duty-cycle operation modes. The techniques will accent mostly on RF PH, inductor-less oscillators, and IR-UWB transceivers. Short CV: Jorge Fernandes (S’97-M’00-SM’10) was born in Lisbon in 1966. He received the Degree in electrical engineering from the Instituto Superior Técnico (IST), Universidade de Lisboa, Portugal, in 1989, and the M.Sc., Ph.D., and Habilitation degrees from the same university in 1993, 2000, and 2010, respectively. He joined the teaching staff of the Department of Electrical Engineering at IST, in 1990, and has been with the Analog and Mixed-Mode Circuits Group, INESC-ID Lisboa, since 1989. He was a Visiting Scholar with the Delft University of Technology, Delft, The Netherlands, in 2000 and 2018, and Columbia University, New York, USA, in 2008. His current research interests include analog, mixed signal and RF circuits, with an emphasis on autonomous sensor circuits and low-power RF frontends. Dr. Fernandes has been a member of the Analog Signal Processing Technical Committee of the IEEE Circuits and Systems Society since 2006 and CASS representative on IEEE Technical Committee on RFID since 2015. He was the General Co-chair of the International Symposium on Circuits and Systems (ISCAS) in 2015.

• published: 26 Jun 2020
• views: 935

5:30

IRIG-B Analyzer quick demonstration - Tekron

• Order: Reorder
• Duration: 5:30
• Uploaded Date: 01 Feb 2017
• views: 2275

Technical Manager Jared Laverty takes us through the functionality of the IRIG-B Analyzer

Technical Manager Jared Laverty takes us through the functionality of the IRIG-B Analyzer

https://wn.com/Irig_B_Analyzer_Quick_Demonstration_Tekron

Technical Manager Jared Laverty takes us through the functionality of the IRIG-B Analyzer

• published: 01 Feb 2017
• views: 2275

0:23

Vehicle Control #shorts

• Order: Reorder
• Duration: 0:23
• Uploaded Date: 28 Oct 2023
• views: 219

Vehicle control https://sites.google.com/view/okajima-lab/en/vehicle-control T. Honda, N. Matsunaga and H. Okajima: Hybrid Steering Model depending on Driver'...

Vehicle control https://sites.google.com/view/okajima-lab/en/vehicle-control T. Honda, N. Matsunaga and H. Okajima: Hybrid Steering Model depending on Driver's Gazing Point to detect inattentive driving using Machine Learning, 19th International Conference on Control, Automation and Systems, 1344-1349 (2019) https://ieeexplore.ieee.org/document/8971669 D. Matsuno, N. Matsunaga, Y. Shida and H. Okajima：Evaluation of steering model depending on gazing distance by using driving simulator, Proceedings of ICCAS 2016 (2016) https://ieeexplore.ieee.org/document/7832297 H. Okajima, S. Yonaha, N. Matsunaga and S. Kawaji：Direct Yaw-moment Control method for electric vehicles to follow the desired path by driver, SICE Annual Conference 2010, 2010.8. https://ieeexplore.ieee.org/document/5604007 H. Okajima, T. Asai and S. Kawaji：Optimal Velocity Control Method in Path Following Control Problem, Proc. of The 17th IFAC World Congress, pp.90-95, 2008.6. https://www.sciencedirect.com/science/article/pii/S1474667016389303 H. Okajima and T. Asai：Path-Following Control based on Trajectory Differences, Proc. of The 10th IFAC/IFORS/IMACS/IFIP Symposium on Large Scale Systems, pp.735-740, 2004.7. https://www.sciencedirect.com/science/article/pii/S1474667017316919 Welfare Vehicle I. Yamamoto, K. Nakamura, N. Matsunaga and H. Okajima: Crowd Tracking of Electric Wheelchair using RGB-D Camera with Median of Candidate Vectors Observer, Proceedings of the SICE Annual Conference 2021 (2021) Y. Takeuchi, N. Matsunaga and H. Okajima: Driving Instruction and Training of Welfare Vehicle controlled by Virtual Platoon Scheme using Sharing System of AR, 19th International Conference on Control, Automation and Systems, 1438-1443 (2019) K. Tanaka, S. Fukumoto, N. Matsunaga and H. Okajima:Obstacle Avoidance of Welfare Vehicle with Head Mounted Display using Spatial Mapping of Driving Environment, 19th International Conference on Control, Automation and Systems, 1222-1227 (2019) Nobutomo Matsunaga, Yudai Takeuchi and Hiroshi Okajima, Driver’s Gaze-point Analysis of Virtual Platoon Driving for Welfare Vehicle using Direct Eye Measurement Device with HMD, 2019 12th Asian Control Conference, 18834072 (2019) Shoichi Sakamoto, Nobutomo Matsunaga and Hiroshi Okajima, Hybrid Steering Model Estimated by Particle Swarm optimization Based on Driver’s Eye Tracking Information, 2018 18th International Conference on Control, Automation and Systems, Paper No.P00160 (2018) Nobutomo Matsunaga, Ryota Kimura, Haruya Ishiguro, Hiroshi Okajima, Driving Assistance of Welfare Vehicle with Virtual Platoon Control Method which has Collision Avoidance Function Using Mixed Reality, Proceeding of 2018 IEEE International Conference on Systems, Man, and Cybernetics, pp.1911-1916 (2018) S. Kimura, N. Matsunaga, H. Okajima and G. Koutaki：Design of virtual platoon control system using augmented reality to assist welfare vehicle users, Proceedings of ICCAS 2017 (2017) S. Sakamoto, T. Tanaka, H. Okajima and N. Matsunaga：Maneuverability evaluation of skid steer welfare vehicle for robust assistance control with model error compensator, Proceedings of ICCAS 2017 (2017) K. Kimura, N. Matsunaga and H. Okajima：Driving Assistance System forWelfare Vehicle using Virtual Platoon Control with Augmented Reality, Proceedings of the SICE Annual Conference 2017 T. Tanaka, H. Okajima and N. Matsunaga：Experiment of robust driving assistance control for skid steer welfare vehicle using model error compensator, Proceedings of ICCAS 2016 (2016) T. Sugano, H. Okajima, S. Samura and N. Matsunaga：Narrow space driving of welfare vehicles using robust platoon control with adaptive way point tracking, Proceedings of the SICE Annual Conference 2016, pp.1436-1441 (2016) T.Sugano, H.Okajima and N.Matsunaga：Robust and precise platoon driving control of welfare vehicles along wheel track by using model error compensator, IECON2015, YF-001503 T. Sugano, Y. Dan, H. Okajima, N. Matsunaga and Z. Hu：Indoor Platoon Driving of Electric Wheelchair with Model Error Compensator along Wheel Track of Preceding Vehicle, The 5th International Symposium on Advanced Control of Industrial Processes, 2014.5 Y. Dan, H. Okajima, N. Matsunaga, Z. Hu and N. Nakamura：Experiment of Indoor Platoon Driving using Electric Wheelchair STAVi Controlled by Modeling Error Compensation System, ICT-PAMM Workshop on Mobility Assistance and Service Robotics, p26-31, 2013.11. K. Nabekura, H. Okajima, N. Matunaga and N. Nakamura：On Collision-Avoidance Steering Assistance of Piggyback Type Electric Wheelchair with Inference of Driver’s Intention, ICT-PAMM Workshop on Mobility Assistance and Service Robotics, p20-25, 2013.11. Y. Maruno, Y. Dan, A. T. Zengin, H. Okajima and N. Matsunaga：Maneuverability Analysis of Front Drive Type Personal Vehicle STAVi using Modeling Error Compensation System, 7th IFAC Symposium on Advanced in Automative Control, 2013.9.

https://wn.com/Vehicle_Control_Shorts

Vehicle control https://sites.google.com/view/okajima-lab/en/vehicle-control T. Honda, N. Matsunaga and H. Okajima: Hybrid Steering Model depending on Driver's Gazing Point to detect inattentive driving using Machine Learning, 19th International Conference on Control, Automation and Systems, 1344-1349 (2019) https://ieeexplore.ieee.org/document/8971669 D. Matsuno, N. Matsunaga, Y. Shida and H. Okajima：Evaluation of steering model depending on gazing distance by using driving simulator, Proceedings of ICCAS 2016 (2016) https://ieeexplore.ieee.org/document/7832297 H. Okajima, S. Yonaha, N. Matsunaga and S. Kawaji：Direct Yaw-moment Control method for electric vehicles to follow the desired path by driver, SICE Annual Conference 2010, 2010.8. https://ieeexplore.ieee.org/document/5604007 H. Okajima, T. Asai and S. Kawaji：Optimal Velocity Control Method in Path Following Control Problem, Proc. of The 17th IFAC World Congress, pp.90-95, 2008.6. https://www.sciencedirect.com/science/article/pii/S1474667016389303 H. Okajima and T. Asai：Path-Following Control based on Trajectory Differences, Proc. of The 10th IFAC/IFORS/IMACS/IFIP Symposium on Large Scale Systems, pp.735-740, 2004.7. https://www.sciencedirect.com/science/article/pii/S1474667017316919 Welfare Vehicle I. Yamamoto, K. Nakamura, N. Matsunaga and H. Okajima: Crowd Tracking of Electric Wheelchair using RGB-D Camera with Median of Candidate Vectors Observer, Proceedings of the SICE Annual Conference 2021 (2021) Y. Takeuchi, N. Matsunaga and H. Okajima: Driving Instruction and Training of Welfare Vehicle controlled by Virtual Platoon Scheme using Sharing System of AR, 19th International Conference on Control, Automation and Systems, 1438-1443 (2019) K. Tanaka, S. Fukumoto, N. Matsunaga and H. Okajima:Obstacle Avoidance of Welfare Vehicle with Head Mounted Display using Spatial Mapping of Driving Environment, 19th International Conference on Control, Automation and Systems, 1222-1227 (2019) Nobutomo Matsunaga, Yudai Takeuchi and Hiroshi Okajima, Driver’s Gaze-point Analysis of Virtual Platoon Driving for Welfare Vehicle using Direct Eye Measurement Device with HMD, 2019 12th Asian Control Conference, 18834072 (2019) Shoichi Sakamoto, Nobutomo Matsunaga and Hiroshi Okajima, Hybrid Steering Model Estimated by Particle Swarm optimization Based on Driver’s Eye Tracking Information, 2018 18th International Conference on Control, Automation and Systems, Paper No.P00160 (2018) Nobutomo Matsunaga, Ryota Kimura, Haruya Ishiguro, Hiroshi Okajima, Driving Assistance of Welfare Vehicle with Virtual Platoon Control Method which has Collision Avoidance Function Using Mixed Reality, Proceeding of 2018 IEEE International Conference on Systems, Man, and Cybernetics, pp.1911-1916 (2018) S. Kimura, N. Matsunaga, H. Okajima and G. Koutaki：Design of virtual platoon control system using augmented reality to assist welfare vehicle users, Proceedings of ICCAS 2017 (2017) S. Sakamoto, T. Tanaka, H. Okajima and N. Matsunaga：Maneuverability evaluation of skid steer welfare vehicle for robust assistance control with model error compensator, Proceedings of ICCAS 2017 (2017) K. Kimura, N. Matsunaga and H. Okajima：Driving Assistance System forWelfare Vehicle using Virtual Platoon Control with Augmented Reality, Proceedings of the SICE Annual Conference 2017 T. Tanaka, H. Okajima and N. Matsunaga：Experiment of robust driving assistance control for skid steer welfare vehicle using model error compensator, Proceedings of ICCAS 2016 (2016) T. Sugano, H. Okajima, S. Samura and N. Matsunaga：Narrow space driving of welfare vehicles using robust platoon control with adaptive way point tracking, Proceedings of the SICE Annual Conference 2016, pp.1436-1441 (2016) T.Sugano, H.Okajima and N.Matsunaga：Robust and precise platoon driving control of welfare vehicles along wheel track by using model error compensator, IECON2015, YF-001503 T. Sugano, Y. Dan, H. Okajima, N. Matsunaga and Z. Hu：Indoor Platoon Driving of Electric Wheelchair with Model Error Compensator along Wheel Track of Preceding Vehicle, The 5th International Symposium on Advanced Control of Industrial Processes, 2014.5 Y. Dan, H. Okajima, N. Matsunaga, Z. Hu and N. Nakamura：Experiment of Indoor Platoon Driving using Electric Wheelchair STAVi Controlled by Modeling Error Compensation System, ICT-PAMM Workshop on Mobility Assistance and Service Robotics, p26-31, 2013.11. K. Nabekura, H. Okajima, N. Matunaga and N. Nakamura：On Collision-Avoidance Steering Assistance of Piggyback Type Electric Wheelchair with Inference of Driver’s Intention, ICT-PAMM Workshop on Mobility Assistance and Service Robotics, p20-25, 2013.11. Y. Maruno, Y. Dan, A. T. Zengin, H. Okajima and N. Matsunaga：Maneuverability Analysis of Front Drive Type Personal Vehicle STAVi using Modeling Error Compensation System, 7th IFAC Symposium on Advanced in Automative Control, 2013.9.

• published: 28 Oct 2023
• views: 219

49:53

Alternative Testing Techniques for Instrument Transformers

• Order: Reorder
• Duration: 49:53
• Uploaded Date: 28 Sep 2018
• views: 1077

The webinar discusses the purpose of current transformers (CT) in the field which is twofold: (1) to be used inaccurate measurement systems and; (2) to be used ...

The webinar discusses the purpose of current transformers (CT) in the field which is twofold: (1) to be used inaccurate measurement systems and; (2) to be used in complex protection and control schemes. For both applications, reliability and precision are paramount. During power restoration after fault conditions, testing capabilities and resources might be limited due to time constraints. Field testing of multi-tap CTs as per the IEEE C57.13.1 standard recommendations is time-consuming if carried out on a tap-by-tap basis. Therefore, the concurrent testing technique is recommended and the necessary tests are carried out on multiple taps simultaneously, thus reducing testing time drastically. In this presentation, AC and DC methods applied to condition assessment of metering and protection current transformers in the field are described. The purpose of current transformers (CT) in the field is twofold: (1) to be used inaccurate measurement systems and; (2) to be used in complex protection and control schemes. For both applications, reliability and precision are paramount. During power restoration after fault conditions, testing capabilities and resources might be limited due to time constraints. Field testing of multi-tap CTs as per the IEEE C57.13.1 standard recommendations is time-consuming if carried out on a tap-by-tap basis. Therefore, the concurrent testing technique is recommended and the necessary tests are carried out on multiple taps simultaneously, thus reducing testing time drastically. In this presentation, AC and DC methods applied to condition assessment of metering and protection current transformers in the field are described. To view our upcoming webinar schedule and register, please visit https://us.megger.com/company/webinars

https://wn.com/Alternative_Testing_Techniques_For_Instrument_Transformers

The webinar discusses the purpose of current transformers (CT) in the field which is twofold: (1) to be used inaccurate measurement systems and; (2) to be used in complex protection and control schemes. For both applications, reliability and precision are paramount. During power restoration after fault conditions, testing capabilities and resources might be limited due to time constraints. Field testing of multi-tap CTs as per the IEEE C57.13.1 standard recommendations is time-consuming if carried out on a tap-by-tap basis. Therefore, the concurrent testing technique is recommended and the necessary tests are carried out on multiple taps simultaneously, thus reducing testing time drastically. In this presentation, AC and DC methods applied to condition assessment of metering and protection current transformers in the field are described. The purpose of current transformers (CT) in the field is twofold: (1) to be used inaccurate measurement systems and; (2) to be used in complex protection and control schemes. For both applications, reliability and precision are paramount. During power restoration after fault conditions, testing capabilities and resources might be limited due to time constraints. Field testing of multi-tap CTs as per the IEEE C57.13.1 standard recommendations is time-consuming if carried out on a tap-by-tap basis. Therefore, the concurrent testing technique is recommended and the necessary tests are carried out on multiple taps simultaneously, thus reducing testing time drastically. In this presentation, AC and DC methods applied to condition assessment of metering and protection current transformers in the field are described. To view our upcoming webinar schedule and register, please visit https://us.megger.com/company/webinars

• published: 28 Sep 2018
• views: 1077

5:17

Asynchronous Device Detection for Cognitive Device to Device Communications

• Order: Reorder
• Duration: 5:17
• Uploaded Date: 22 Dec 2018
• views: 0

Asynchronous Device Detection for Cognitive Device to Device Communications IEEE PROJECTS 2018-2019 TITLE LIST Call Us: +91-7806844441,9994232214 Mail Us: 9chen...

Asynchronous Device Detection for Cognitive Device to Device Communications IEEE PROJECTS 2018-2019 TITLE LIST Call Us: +91-7806844441,9994232214 Mail Us: [email protected] Website: : http://www.nextchennai.com : http://www.ieeeproject.net : http://www.projectsieee.com : http://www.ieee-projects-chennai.com : http://www.24chennai.com WhatsApp : +91-7806844441 Chat Online: https://goo.gl/p42cQt Support Including Packages ======================= * Complete Source Code * Complete Documentation * Complete Presentation Slides * Flow Diagram * Database File * Screenshots * Execution Procedure * Readme File * Video Tutorials * Supporting Softwares Support Specialization ======================= * 24/7 Support * Ticketing System * Voice Conference * Video On Demand * Remote Connectivity * Document Customization * Live Chat Support

https://wn.com/Asynchronous_Device_Detection_For_Cognitive_Device_To_Device_Communications

Asynchronous Device Detection for Cognitive Device to Device Communications IEEE PROJECTS 2018-2019 TITLE LIST Call Us: +91-7806844441,9994232214 Mail Us: [email protected] Website: : http://www.nextchennai.com : http://www.ieeeproject.net : http://www.projectsieee.com : http://www.ieee-projects-chennai.com : http://www.24chennai.com WhatsApp : +91-7806844441 Chat Online: https://goo.gl/p42cQt Support Including Packages ======================= * Complete Source Code * Complete Documentation * Complete Presentation Slides * Flow Diagram * Database File * Screenshots * Execution Procedure * Readme File * Video Tutorials * Supporting Softwares Support Specialization ======================= * 24/7 Support * Ticketing System * Voice Conference * Video On Demand * Remote Connectivity * Document Customization * Live Chat Support

• published: 22 Dec 2018
• views: 0

3:54

03. Eras tu 🎵 | Ulises Bueno - #AHORA

• Order: Reorder
• Duration: 3:54
• Uploaded Date: 31 Dec 2019
• views: 2910136

Ulises Bueno - Ahora (2019) --------------------------------------------- Instagram Personal: https://www.instagram.com/SoyUlisesBueno/ Instagram Oficial: http...

Ulises Bueno - Ahora (2019) --------------------------------------------- Instagram Personal: https://www.instagram.com/SoyUlisesBueno/ Instagram Oficial: https://www.instagram.com/UlisesBuenoSoy/ --------------------------------------------- Facebook https://www.facebook.com/ulises.bueno.oficial Twiiter https://twitter.com/UlisesBuenoSoy --------------------------------------------- #UlisesBueno #Ahora #CuartetoDelBueno

https://wn.com/03._Eras_Tu_🎵_|_Ulises_Bueno_Ahora

Ulises Bueno - Ahora (2019) --------------------------------------------- Instagram Personal: https://www.instagram.com/SoyUlisesBueno/ Instagram Oficial: https://www.instagram.com/UlisesBuenoSoy/ --------------------------------------------- Facebook https://www.facebook.com/ulises.bueno.oficial Twiiter https://twitter.com/UlisesBuenoSoy --------------------------------------------- #UlisesBueno #Ahora #CuartetoDelBueno

• published: 31 Dec 2019
• views: 2910136

3:13

UV-C Disinfection Robot - testing key features

• Order: Reorder
• Duration: 3:13
• Uploaded Date: 17 Jul 2020
• views: 448

Testing key features of UV-C disinfection robot. This robot has two important functions: - floor disinfection - video surveillance in facilities The robot is re...

Testing key features of UV-C disinfection robot. This robot has two important functions: - floor disinfection - video surveillance in facilities The robot is remotely controlled by the operator from a safe distance (e.g. another room). Preview from 2 cameras is sent to the operator in real time to facilitate control of the robot's trajectory. UVC (100-280 nm) is able to kill all kinds of microorganisms, including drug-resistant bacteria, fungi and viruses like covid-19. UVC light is absorbed in the cellular RNA and DNA resulting to virus structural damage and inactivation, such that they are no longer able to replicate. UVC is dangerous to humans. Remember to avoid direct exposure to UVC, especially skin and eyes! webpage: https://sairob.eu fb: https://goo.gl/tTxWAf instagram: https://www.instagram.com/mobilerobots

https://wn.com/Uv_C_Disinfection_Robot_Testing_Key_Features

Testing key features of UV-C disinfection robot. This robot has two important functions: - floor disinfection - video surveillance in facilities The robot is remotely controlled by the operator from a safe distance (e.g. another room). Preview from 2 cameras is sent to the operator in real time to facilitate control of the robot's trajectory. UVC (100-280 nm) is able to kill all kinds of microorganisms, including drug-resistant bacteria, fungi and viruses like covid-19. UVC light is absorbed in the cellular RNA and DNA resulting to virus structural damage and inactivation, such that they are no longer able to replicate. UVC is dangerous to humans. Remember to avoid direct exposure to UVC, especially skin and eyes! webpage: https://sairob.eu fb: https://goo.gl/tTxWAf instagram: https://www.instagram.com/mobilerobots

• published: 17 Jul 2020
• views: 448

3:13

How to Transfer MiniDV Tapes to Computer without Firewire

• Order: Reorder
• Duration: 3:13
• Uploaded Date: 09 Jul 2022
• views: 8374

How to Transfer MiniDV Tapes to Computer without Firewire Back in the day, MiniDV was a superior camcorder format. It offered you 500 lines of horizontal res...

How to Transfer MiniDV Tapes to Computer without Firewire Back in the day, MiniDV was a superior camcorder format. It offered you 500 lines of horizontal resolution. Before MiniDV, SVHS and Hi8 had the highest resolution - 400 lines. VHS and Video8 could manage only 240 lines. MiniDV could send video to a computer without quality loss through a Firewire connection. Your computer must have a Firewire port. Only certain computers like Macs came with Firewire ports. It's not easy to set up a Firewire connection on a computer, especially a laptop computer. Many users have complained about the difficulty of getting Firewire to work on a modern computer. On a modern desktop computer, you may need to install a Firewire 1394 legacy driver to make Firewire work. If you don't want to go through all this hassle, get a USB capture device. These devices are affordable and do a good job of transferring video tapes to digital. All you have to do is connect your camcorder AV out ports to the USB capture device's AV in ports. Once that is done, you can plug in the device to a spare USB port on your computer. Next, you would need a video capture software program to recognize the capture device. The software program is usually included with the purchase of the USB video capture device. After the software detects the device, play the tape on the camcorder You should see a preview on the software's video screen. When you stop recording the captured video will be stored as a file, usually in the MP4 format. You can then edit the file with a video editor and even burn it to DVD. Transferring video through a USB video capture device is not the best way to digitize a miniDV tape. There will be some quality loss. However, it's a much easier process if you're a beginner. For higher quality video you're advised to connect your camcorder to the S-Video port of the capture device instead of the composite video ports. These are the steps you need to follow to transfer MiniDV tapes to a computer without Firewire. Check your video capture device manual for detailed instructions on how to transfer MiniDV tapes to a computer without Firewire.

https://wn.com/How_To_Transfer_Minidv_Tapes_To_Computer_Without_Firewire

How to Transfer MiniDV Tapes to Computer without Firewire Back in the day, MiniDV was a superior camcorder format. It offered you 500 lines of horizontal resolution. Before MiniDV, SVHS and Hi8 had the highest resolution - 400 lines. VHS and Video8 could manage only 240 lines. MiniDV could send video to a computer without quality loss through a Firewire connection. Your computer must have a Firewire port. Only certain computers like Macs came with Firewire ports. It's not easy to set up a Firewire connection on a computer, especially a laptop computer. Many users have complained about the difficulty of getting Firewire to work on a modern computer. On a modern desktop computer, you may need to install a Firewire 1394 legacy driver to make Firewire work. If you don't want to go through all this hassle, get a USB capture device. These devices are affordable and do a good job of transferring video tapes to digital. All you have to do is connect your camcorder AV out ports to the USB capture device's AV in ports. Once that is done, you can plug in the device to a spare USB port on your computer. Next, you would need a video capture software program to recognize the capture device. The software program is usually included with the purchase of the USB video capture device. After the software detects the device, play the tape on the camcorder You should see a preview on the software's video screen. When you stop recording the captured video will be stored as a file, usually in the MP4 format. You can then edit the file with a video editor and even burn it to DVD. Transferring video through a USB video capture device is not the best way to digitize a miniDV tape. There will be some quality loss. However, it's a much easier process if you're a beginner. For higher quality video you're advised to connect your camcorder to the S-Video port of the capture device instead of the composite video ports. These are the steps you need to follow to transfer MiniDV tapes to a computer without Firewire. Check your video capture device manual for detailed instructions on how to transfer MiniDV tapes to a computer without Firewire.

• published: 09 Jul 2022
• views: 8374

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4:15

Firewire

Firewire is actually the IEEE-1344 standard interface for high speed, real time data trans...

published: 14 Nov 2017

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Firewire

Firewire

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• published: 14 Nov 2017
• views: 53

Firewire is actually the IEEE-1344 standard interface for high speed, real time data transfer. There are two versions, the 1394a and 1394b which transfer data at 400 and 800 Mbps. From this lesson you’ll also learn which Firewire type uses the 6-pin connection vs. the 9-pin, and the pin count ratio for data transfer vs. power transfer. We’ll look at several devices to see and explain the differences between port and connectivity relationships, you’ll learn that the maximum number of devices that can be connected to a single port is 16, and why.

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0:31

2016 leap second in IRIG-B timecode

In 2016, leap second was added to UTC time in 31.12.2016 23:59:60 UTC. Here we can see thi...

published: 01 Jan 2017

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2016 leap second in IRIG-B timecode

2016 leap second in IRIG-B timecode

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• published: 01 Jan 2017
• views: 772

In 2016, leap second was added to UTC time in 31.12.2016 23:59:60 UTC. Here we can see this event happening as decoded from IRIG-B timecode utilized wih IEEE1344 support. NOTE: There's no sound in this video!

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1:21:20

Distinguished Talk 01: Low-power Circuits for IoT

The Distinguished Talks is a series of webinars on IC Design and IC Devices promoted by th...

published: 26 Jun 2020

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Distinguished Talk 01: Low-power Circuits for IoT

Distinguished Talk 01: Low-power Circuits for IoT

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• published: 26 Jun 2020
• views: 935

The Distinguished Talks is a series of webinars on IC Design and IC Devices promoted by the IEEE SSCS-EDS South Brazil Joint-Chapter. The invited speakers are experts in the field of integrated circuits. Distinguished Talk 01: Low-power Circuits for IoT by Dr. Jorge Fernandes Abstract: After the telecommunications boom (connecting people) and the internet boom (connecting computers), IoT challenges to connect all “things”. IoT revolution is based on the availability of a massive amount of information coming from the data sensed and transmitted by a huge amount of Intelligent connected objects. One of the IoT drives is to connect objects with low-cost fully autonomous circuits, focused on extremely low-power to be battery-less. This talk addresses power harvesting (PH) circuits, clock circuits, and communication circuits that follow these trends and that can be used efficiently in low-duty-cycle operation modes. The techniques will accent mostly on RF PH, inductor-less oscillators, and IR-UWB transceivers. Short CV: Jorge Fernandes (S’97-M’00-SM’10) was born in Lisbon in 1966. He received the Degree in electrical engineering from the Instituto Superior Técnico (IST), Universidade de Lisboa, Portugal, in 1989, and the M.Sc., Ph.D., and Habilitation degrees from the same university in 1993, 2000, and 2010, respectively. He joined the teaching staff of the Department of Electrical Engineering at IST, in 1990, and has been with the Analog and Mixed-Mode Circuits Group, INESC-ID Lisboa, since 1989. He was a Visiting Scholar with the Delft University of Technology, Delft, The Netherlands, in 2000 and 2018, and Columbia University, New York, USA, in 2008. His current research interests include analog, mixed signal and RF circuits, with an emphasis on autonomous sensor circuits and low-power RF frontends. Dr. Fernandes has been a member of the Analog Signal Processing Technical Committee of the IEEE Circuits and Systems Society since 2006 and CASS representative on IEEE Technical Committee on RFID since 2015. He was the General Co-chair of the International Symposium on Circuits and Systems (ISCAS) in 2015.

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5:30

IRIG-B Analyzer quick demonstration - Tekron

Technical Manager Jared Laverty takes us through the functionality of the IRIG-B Analyzer

published: 01 Feb 2017

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IRIG-B Analyzer quick demonstration - Tekron

IRIG-B Analyzer quick demonstration - Tekron

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• published: 01 Feb 2017
• views: 2275

Technical Manager Jared Laverty takes us through the functionality of the IRIG-B Analyzer

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0:23

Vehicle Control #shorts

Vehicle control https://sites.google.com/view/okajima-lab/en/vehicle-control T. Honda, N...

published: 28 Oct 2023

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Vehicle Control #shorts

Vehicle Control #shorts

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• published: 28 Oct 2023
• views: 219

Vehicle control https://sites.google.com/view/okajima-lab/en/vehicle-control T. Honda, N. Matsunaga and H. Okajima: Hybrid Steering Model depending on Driver's Gazing Point to detect inattentive driving using Machine Learning, 19th International Conference on Control, Automation and Systems, 1344-1349 (2019) https://ieeexplore.ieee.org/document/8971669 D. Matsuno, N. Matsunaga, Y. Shida and H. Okajima：Evaluation of steering model depending on gazing distance by using driving simulator, Proceedings of ICCAS 2016 (2016) https://ieeexplore.ieee.org/document/7832297 H. Okajima, S. Yonaha, N. Matsunaga and S. Kawaji：Direct Yaw-moment Control method for electric vehicles to follow the desired path by driver, SICE Annual Conference 2010, 2010.8. https://ieeexplore.ieee.org/document/5604007 H. Okajima, T. Asai and S. Kawaji：Optimal Velocity Control Method in Path Following Control Problem, Proc. of The 17th IFAC World Congress, pp.90-95, 2008.6. https://www.sciencedirect.com/science/article/pii/S1474667016389303 H. Okajima and T. Asai：Path-Following Control based on Trajectory Differences, Proc. of The 10th IFAC/IFORS/IMACS/IFIP Symposium on Large Scale Systems, pp.735-740, 2004.7. https://www.sciencedirect.com/science/article/pii/S1474667017316919 Welfare Vehicle I. Yamamoto, K. Nakamura, N. Matsunaga and H. Okajima: Crowd Tracking of Electric Wheelchair using RGB-D Camera with Median of Candidate Vectors Observer, Proceedings of the SICE Annual Conference 2021 (2021) Y. Takeuchi, N. Matsunaga and H. Okajima: Driving Instruction and Training of Welfare Vehicle controlled by Virtual Platoon Scheme using Sharing System of AR, 19th International Conference on Control, Automation and Systems, 1438-1443 (2019) K. Tanaka, S. Fukumoto, N. Matsunaga and H. Okajima:Obstacle Avoidance of Welfare Vehicle with Head Mounted Display using Spatial Mapping of Driving Environment, 19th International Conference on Control, Automation and Systems, 1222-1227 (2019) Nobutomo Matsunaga, Yudai Takeuchi and Hiroshi Okajima, Driver’s Gaze-point Analysis of Virtual Platoon Driving for Welfare Vehicle using Direct Eye Measurement Device with HMD, 2019 12th Asian Control Conference, 18834072 (2019) Shoichi Sakamoto, Nobutomo Matsunaga and Hiroshi Okajima, Hybrid Steering Model Estimated by Particle Swarm optimization Based on Driver’s Eye Tracking Information, 2018 18th International Conference on Control, Automation and Systems, Paper No.P00160 (2018) Nobutomo Matsunaga, Ryota Kimura, Haruya Ishiguro, Hiroshi Okajima, Driving Assistance of Welfare Vehicle with Virtual Platoon Control Method which has Collision Avoidance Function Using Mixed Reality, Proceeding of 2018 IEEE International Conference on Systems, Man, and Cybernetics, pp.1911-1916 (2018) S. Kimura, N. Matsunaga, H. Okajima and G. Koutaki：Design of virtual platoon control system using augmented reality to assist welfare vehicle users, Proceedings of ICCAS 2017 (2017) S. Sakamoto, T. Tanaka, H. Okajima and N. Matsunaga：Maneuverability evaluation of skid steer welfare vehicle for robust assistance control with model error compensator, Proceedings of ICCAS 2017 (2017) K. Kimura, N. Matsunaga and H. Okajima：Driving Assistance System forWelfare Vehicle using Virtual Platoon Control with Augmented Reality, Proceedings of the SICE Annual Conference 2017 T. Tanaka, H. Okajima and N. Matsunaga：Experiment of robust driving assistance control for skid steer welfare vehicle using model error compensator, Proceedings of ICCAS 2016 (2016) T. Sugano, H. Okajima, S. Samura and N. Matsunaga：Narrow space driving of welfare vehicles using robust platoon control with adaptive way point tracking, Proceedings of the SICE Annual Conference 2016, pp.1436-1441 (2016) T.Sugano, H.Okajima and N.Matsunaga：Robust and precise platoon driving control of welfare vehicles along wheel track by using model error compensator, IECON2015, YF-001503 T. Sugano, Y. Dan, H. Okajima, N. Matsunaga and Z. Hu：Indoor Platoon Driving of Electric Wheelchair with Model Error Compensator along Wheel Track of Preceding Vehicle, The 5th International Symposium on Advanced Control of Industrial Processes, 2014.5 Y. Dan, H. Okajima, N. Matsunaga, Z. Hu and N. Nakamura：Experiment of Indoor Platoon Driving using Electric Wheelchair STAVi Controlled by Modeling Error Compensation System, ICT-PAMM Workshop on Mobility Assistance and Service Robotics, p26-31, 2013.11. K. Nabekura, H. Okajima, N. Matunaga and N. Nakamura：On Collision-Avoidance Steering Assistance of Piggyback Type Electric Wheelchair with Inference of Driver’s Intention, ICT-PAMM Workshop on Mobility Assistance and Service Robotics, p20-25, 2013.11. Y. Maruno, Y. Dan, A. T. Zengin, H. Okajima and N. Matsunaga：Maneuverability Analysis of Front Drive Type Personal Vehicle STAVi using Modeling Error Compensation System, 7th IFAC Symposium on Advanced in Automative Control, 2013.9.

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49:53

Alternative Testing Techniques for Instrument Transformers

The webinar discusses the purpose of current transformers (CT) in the field which is twofo...

published: 28 Sep 2018

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Alternative Testing Techniques for Instrument Transformers

Alternative Testing Techniques for Instrument Transformers

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• published: 28 Sep 2018
• views: 1077

The webinar discusses the purpose of current transformers (CT) in the field which is twofold: (1) to be used inaccurate measurement systems and; (2) to be used in complex protection and control schemes. For both applications, reliability and precision are paramount. During power restoration after fault conditions, testing capabilities and resources might be limited due to time constraints. Field testing of multi-tap CTs as per the IEEE C57.13.1 standard recommendations is time-consuming if carried out on a tap-by-tap basis. Therefore, the concurrent testing technique is recommended and the necessary tests are carried out on multiple taps simultaneously, thus reducing testing time drastically. In this presentation, AC and DC methods applied to condition assessment of metering and protection current transformers in the field are described. The purpose of current transformers (CT) in the field is twofold: (1) to be used inaccurate measurement systems and; (2) to be used in complex protection and control schemes. For both applications, reliability and precision are paramount. During power restoration after fault conditions, testing capabilities and resources might be limited due to time constraints. Field testing of multi-tap CTs as per the IEEE C57.13.1 standard recommendations is time-consuming if carried out on a tap-by-tap basis. Therefore, the concurrent testing technique is recommended and the necessary tests are carried out on multiple taps simultaneously, thus reducing testing time drastically. In this presentation, AC and DC methods applied to condition assessment of metering and protection current transformers in the field are described. To view our upcoming webinar schedule and register, please visit https://us.megger.com/company/webinars

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5:17

Asynchronous Device Detection for Cognitive Device to Device Communications

Asynchronous Device Detection for Cognitive Device to Device Communications IEEE PROJECTS ...

published: 22 Dec 2018

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Asynchronous Device Detection for Cognitive Device to Device Communications

Asynchronous Device Detection for Cognitive Device to Device Communications

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• published: 22 Dec 2018
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Asynchronous Device Detection for Cognitive Device to Device Communications IEEE PROJECTS 2018-2019 TITLE LIST Call Us: +91-7806844441,9994232214 Mail Us: [email protected] Website: : http://www.nextchennai.com : http://www.ieeeproject.net : http://www.projectsieee.com : http://www.ieee-projects-chennai.com : http://www.24chennai.com WhatsApp : +91-7806844441 Chat Online: https://goo.gl/p42cQt Support Including Packages ======================= * Complete Source Code * Complete Documentation * Complete Presentation Slides * Flow Diagram * Database File * Screenshots * Execution Procedure * Readme File * Video Tutorials * Supporting Softwares Support Specialization ======================= * 24/7 Support * Ticketing System * Voice Conference * Video On Demand * Remote Connectivity * Document Customization * Live Chat Support

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3:54

03. Eras tu 🎵 | Ulises Bueno - #AHORA

Ulises Bueno - Ahora (2019) --------------------------------------------- Instagram Perso...

published: 31 Dec 2019

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03. Eras tu 🎵 | Ulises Bueno - #AHORA

03. Eras tu 🎵 | Ulises Bueno - #AHORA

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• published: 31 Dec 2019
• views: 2910136

Ulises Bueno - Ahora (2019) --------------------------------------------- Instagram Personal: https://www.instagram.com/SoyUlisesBueno/ Instagram Oficial: https://www.instagram.com/UlisesBuenoSoy/ --------------------------------------------- Facebook https://www.facebook.com/ulises.bueno.oficial Twiiter https://twitter.com/UlisesBuenoSoy --------------------------------------------- #UlisesBueno #Ahora #CuartetoDelBueno

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3:13

UV-C Disinfection Robot - testing key features

Testing key features of UV-C disinfection robot. This robot has two important functions: -...

published: 17 Jul 2020

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UV-C Disinfection Robot - testing key features

UV-C Disinfection Robot - testing key features

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• published: 17 Jul 2020
• views: 448

Testing key features of UV-C disinfection robot. This robot has two important functions: - floor disinfection - video surveillance in facilities The robot is remotely controlled by the operator from a safe distance (e.g. another room). Preview from 2 cameras is sent to the operator in real time to facilitate control of the robot's trajectory. UVC (100-280 nm) is able to kill all kinds of microorganisms, including drug-resistant bacteria, fungi and viruses like covid-19. UVC light is absorbed in the cellular RNA and DNA resulting to virus structural damage and inactivation, such that they are no longer able to replicate. UVC is dangerous to humans. Remember to avoid direct exposure to UVC, especially skin and eyes! webpage: https://sairob.eu fb: https://goo.gl/tTxWAf instagram: https://www.instagram.com/mobilerobots

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3:13

How to Transfer MiniDV Tapes to Computer without Firewire

How to Transfer MiniDV Tapes to Computer without Firewire Back in the day, MiniDV was a ...

published: 09 Jul 2022

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How to Transfer MiniDV Tapes to Computer without Firewire

How to Transfer MiniDV Tapes to Computer without Firewire

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• published: 09 Jul 2022
• views: 8374

How to Transfer MiniDV Tapes to Computer without Firewire Back in the day, MiniDV was a superior camcorder format. It offered you 500 lines of horizontal resolution. Before MiniDV, SVHS and Hi8 had the highest resolution - 400 lines. VHS and Video8 could manage only 240 lines. MiniDV could send video to a computer without quality loss through a Firewire connection. Your computer must have a Firewire port. Only certain computers like Macs came with Firewire ports. It's not easy to set up a Firewire connection on a computer, especially a laptop computer. Many users have complained about the difficulty of getting Firewire to work on a modern computer. On a modern desktop computer, you may need to install a Firewire 1394 legacy driver to make Firewire work. If you don't want to go through all this hassle, get a USB capture device. These devices are affordable and do a good job of transferring video tapes to digital. All you have to do is connect your camcorder AV out ports to the USB capture device's AV in ports. Once that is done, you can plug in the device to a spare USB port on your computer. Next, you would need a video capture software program to recognize the capture device. The software program is usually included with the purchase of the USB video capture device. After the software detects the device, play the tape on the camcorder You should see a preview on the software's video screen. When you stop recording the captured video will be stored as a file, usually in the MP4 format. You can then edit the file with a video editor and even burn it to DVD. Transferring video through a USB video capture device is not the best way to digitize a miniDV tape. There will be some quality loss. However, it's a much easier process if you're a beginner. For higher quality video you're advised to connect your camcorder to the S-Video port of the capture device instead of the composite video ports. These are the steps you need to follow to transfer MiniDV tapes to a computer without Firewire. Check your video capture device manual for detailed instructions on how to transfer MiniDV tapes to a computer without Firewire.

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IEEE 1344

IEEE 1344 is a standard that defines parameters for synchrophasors for power systems. The standard added extension to the IRIG-B time code to cover year, time quality, daylight saving time, local time offset and leap second information. IEEE 1344 was superseded by IEEE C37.118 in 2005 and the time extensions were adopted as part of the IRIG timing standard in the 2004 edition.

IRIG-B timecode consists of 100 bits, repeated each second. Every tenth bit is a "position identifier", and most of the remainder encode the current time (date, hour, minute and second). Bits 60–68 and 70–78 are reserved for other uses; IEEE 1344 is such a use. It defines the bits as follows:

The DST and leap warning bits are set no more than 59 seconds before the indicated change, and indicate the change at the end of the minute. During a leap second, the warning bit should be set, the seconds field should show "60", and the Straight Binary Seconds field should equal 60 + 60 × minutes + 3600 × hours. The next second, the leap second warning bit should be clear, and the SBS field will repeat. Since negative leap seconds have never happened, and almost certainly never will, the LS bit is always 0.

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This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/IEEE_1344

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Firewire...

2016 leap second in IRIG-B timecode...

Distinguished Talk 01: Low-power Circuits for IoT...

IRIG-B Analyzer quick demonstration - Tekron...

Vehicle Control #shorts...

Alternative Testing Techniques for Instrument Tran...

Asynchronous Device Detection for Cognitive Device...

03. Eras tu 🎵 | Ulises Bueno - #AHORA...

UV-C Disinfection Robot - testing key features...

How to Transfer MiniDV Tapes to Computer without F...

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Dr. Giovanni De Micheli Honored with 2022 Phil Kaufman Award Presented by ESD Alliance and ...

Longview News-Journal 28 Sep 2022

... of NoCs; the 2012 IEEE Circuits and Systems (CAS) Society's Mac Van Valkenburg Award for contributions to theory, practice and experimentation in design methods and tools; and the 2003 IEEE Emanuel R.

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