Conferences related to Electric fences

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2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting

The joint meeting is intended to provide an international forum for the exchange of information on state of the art research in the area of antennas and propagation, electromagnetic engineering and radio science


2020 42nd Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC)

The conference program will consist of plenary lectures, symposia, workshops and invitedsessions of the latest significant findings and developments in all the major fields of biomedical engineering.Submitted papers will be peer reviewed. Accepted high quality papers will be presented in oral and postersessions, will appear in the Conference Proceedings and will be indexed in PubMed/MEDLINE


2020 IEEE 29th International Symposium on Industrial Electronics (ISIE)

ISIE focuses on advancements in knowledge, new methods, and technologies relevant to industrial electronics, along with their applications and future developments.


2020 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

CVPR is the premier annual computer vision event comprising the main conference and several co-located workshops and short courses. With its high quality and low cost, it provides an exceptional value for students, academics and industry researchers.

  • 2019 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)

    CVPR is the premier annual computer vision event comprising the main conference and severalco-located workshops and short courses. With its high quality and low cost, it provides anexceptional value for students, academics and industry researchers.

  • 2018 IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)

    CVPR is the premier annual computer vision event comprising the main conference and several co-located workshops and short courses. With its high quality and low cost, it provides an exceptional value for students, academics and industry researchers.

  • 2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    CVPR is the premiere annual Computer Vision event comprising the main CVPR conferenceand 27co-located workshops and short courses. With its high quality and low cost, it provides anexceptional value for students,academics and industry.

  • 2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    CVPR is the premiere annual Computer Vision event comprising the main CVPR conference and 27 co-located workshops and short courses. With its high quality and low cost, it provides an exceptional value for students, academics and industry.

  • 2015 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    computer, vision, pattern, cvpr, machine, learning

  • 2014 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    CVPR is the premiere annual Computer Vision event comprising the main CVPR conference and 27 co-located workshops and short courses. Main conference plus 50 workshop only attendees and approximately 50 exhibitors and volunteers.

  • 2013 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    CVPR is the premiere annual Computer Vision event comprising the main CVPR conference and 27 co-located workshops and short courses. With its high quality and low cost, it provides an exceptional value for students, academics and industry.

  • 2012 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    Topics of interest include all aspects of computer vision and pattern recognition including motion and tracking,stereo, object recognition, object detection, color detection plus many more

  • 2011 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    Sensors Early and Biologically-Biologically-inspired Vision, Color and Texture, Segmentation and Grouping, Computational Photography and Video

  • 2010 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    Concerned with all aspects of computer vision and pattern recognition. Issues of interest include pattern, analysis, image, and video libraries, vision and graphics, motion analysis and physics-based vision.

  • 2009 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

    Concerned with all aspects of computer vision and pattern recognition. Issues of interest include pattern, analysis, image, and video libraries, vision and graphics,motion analysis and physics-based vision.

  • 2008 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

  • 2007 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

  • 2006 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

  • 2005 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)


2020 IEEE IAS Petroleum and Chemical Industry Committee (PCIC)

The PCIC provides an international forum for the exchange of electrical applications technology related to the petroleum and chemical industry. The PCIC annual conference is rotated across North American locations of industry strength to attract national and international participation. User, manufacturer, consultant, and contractor participation is encouraged to strengthen the conference technical base. Success of the PCIC is built upon high quality papers, individual recognition, valued standards activities, mentoring, tutorials, networking and conference sites that appeal to all.


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Periodicals related to Electric fences

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Advanced Packaging, IEEE Transactions on

The IEEE Transactions on Advanced Packaging has its focus on the modeling, design, and analysis of advanced electronic, photonic, sensors, and MEMS packaging.


Aerospace and Electronic Systems Magazine, IEEE

The IEEE Aerospace and Electronic Systems Magazine publishes articles concerned with the various aspects of systems for space, air, ocean, or ground environments.


Antennas and Propagation, IEEE Transactions on

Experimental and theoretical advances in antennas including design and development, and in the propagation of electromagnetic waves including scattering, diffraction and interaction with continuous media; and applications pertinent to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques.


Industry Applications Magazine, IEEE

This magazine publishes articles concerning technical subjects and professional activities that are within the scope of IAS and are of interest to society members. The information includes but is not limited to articles, product reviews, book reviews, new standards, education information, announcements of conferences, workshops, new publications, committee meetings and reports of IAS activities.


Industry Applications, IEEE Transactions on

The development and application of electric systems, apparatus, devices, and controls to the processes and equipment of industry and commerce; the promotion of safe, reliable, and economic installations; the encouragement of energy conservation; the creation of voluntary engineering standards and recommended practices.


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Most published Xplore authors for Electric fences

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Xplore Articles related to Electric fences

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A Wireless Power Transfer System for Electric Fence Energizers

2018 IEEE 4th Southern Power Electronics Conference (SPEC), 2018

Increasingly, it is desired to operate electric fence energizers at higher power levels. This can be achieved by applying higher voltage output pulses from an electric fence energizer onto fence lines. However, and to comply with safety standards, this necessitates an increased level of voltage isolation between input and output parts of a mains-supplied electric fence energizer circuit. Therefore, low ...


Mathematical Solution to the Problem of the Control or the Thermal Environment or Buried Cables

Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems, 1960

None


Development of electric fence management system using wireless network technology

2015 IEEE 4th Global Conference on Consumer Electronics (GCCE), 2015

Traditional electric fence has been helpful as a guard of crops. However, its system has some problems. It can be used only as a defense from animals, and it cannot notify the voltage which occasionally drops because of vines winding or weeds touching. Furthermore, the owners of the fence have to check the voltage but they cannot know it without ...


Effects of electric current on man

Electrical Engineering, 1941

With increasing use of electric fences, insect screens, and other devices having exposed electrodes, information on the magnitude of electric current that is safe for human beings becomes of great importance in determining regulations and safety codes. The authors report the results of experiments showing the maximum 60-cycle alternating current and direct current which the average man can withstand with ...


Demo: Taking Advantage of the Shock Hazard: How to Use an Electric Fence for Data Transfers

2018 14th International Conference on Distributed Computing in Sensor Systems (DCOSS), 2018

The deployment of embedded sensing devices on croplands and pastures is an enabling element for precision agriculture applications. Changing conditions (e.g., different crops being grown), however, may require the occasional reconfiguration of the resulting networks of wireless sensors, e.g., to modify data reporting rates or synchronize internal clocks. In this demo we showcase an opportunistic broadcast channel to forward such ...


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Educational Resources on Electric fences

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IEEE-USA E-Books

  • A Wireless Power Transfer System for Electric Fence Energizers

    Increasingly, it is desired to operate electric fence energizers at higher power levels. This can be achieved by applying higher voltage output pulses from an electric fence energizer onto fence lines. However, and to comply with safety standards, this necessitates an increased level of voltage isolation between input and output parts of a mains-supplied electric fence energizer circuit. Therefore, low cost techniques to achieve high voltage isolation are required. Accordingly, this paper reports such a technique, based on integrating a contactless capacitive power transfer, CPT, circuit into the capacitor charging part of an electric fence energizer. Through compensation, reactive power drawn by the CPT circuit can be reduced, while assuring circuit operation as a current source. This is ideal for capacitor charging purposes, and energy transfer through appropriately separated CPT electrodes allows for high voltage isolation. The proposed CPT circuit is modelled. The results of modelling verify performance.

  • Mathematical Solution to the Problem of the Control or the Thermal Environment or Buried Cables

    None

  • Development of electric fence management system using wireless network technology

    Traditional electric fence has been helpful as a guard of crops. However, its system has some problems. It can be used only as a defense from animals, and it cannot notify the voltage which occasionally drops because of vines winding or weeds touching. Furthermore, the owners of the fence have to check the voltage but they cannot know it without going there. An electric fence management system we develop uses wireless communication, and it enables the owners to know the voltage and the state of the electric fence and monitor it from remote locations safely. Wireless communications is successful or not is an important factor in the system, many experiemntal trials of wireless communication using 2.4[GHz] band are conducted in hill and dale. This paper describes a demonstrative experiment in a mountainous region, and suggests an approach to resolve some problems.

  • Effects of electric current on man

    With increasing use of electric fences, insect screens, and other devices having exposed electrodes, information on the magnitude of electric current that is safe for human beings becomes of great importance in determining regulations and safety codes. The authors report the results of experiments showing the maximum 60-cycle alternating current and direct current which the average man can withstand with reasonable safety.

  • Demo: Taking Advantage of the Shock Hazard: How to Use an Electric Fence for Data Transfers

    The deployment of embedded sensing devices on croplands and pastures is an enabling element for precision agriculture applications. Changing conditions (e.g., different crops being grown), however, may require the occasional reconfiguration of the resulting networks of wireless sensors, e.g., to modify data reporting rates or synchronize internal clocks. In this demo we showcase an opportunistic broadcast channel to forward such configuration messages to embedded systems. The transmitting station is realized by means of an electric fence energizer, a device frequently utilized in agricultural settings. On the receiver side, only little hardware efforts are required to capture the highvoltage pulses and decode transmitted configuration messages.

  • Electric Fence Intrusion Alert System (eleAlert)

    We present the design and implementation of intrusion detection and alerting mechanism (eleAlert) for fences separating wildlife habitats and human settlements. Our objective is to improve the effectiveness of electric fences as a solution to the prevailing human-elephant conflict (HEC) in many parts of the world. eleAlert uses a network of sensors to detect and locate damages instantly and alert communities under threat via the mobile communications network.

  • The direct measurement bandwidth

    Traditional methods of bandwidth measurement are based on somewhat arbitrary specifications, for example', the frequency difference between the high and low frequencies at which the single-tone response provides half the power corresponding to the frequency of maximum response. Other definitions of bandwidth or cut-off frequency are used in special cases whenever they seem appropriate. The lack of standardization in this matter creates confusion which is only now being resolved by the concept of equivalent bandwidth. A review of this concept is given to facilitate discussion of the measuring instruments described.

  • Paralysis following “freezing” to a wire

    HOW LONG will you be “frozen” to an energized wire after the circuit is interrupted? Failure to utilize the correct answer in design might result in your being a victim the next time you inadvertently grasp an electric fence. Information on the probable length of time it takes a person to release his grasp of a wire after being subjected to currents above his “let-go” limit is important in establishing the minimum allowable “off” period for electric fences and is of concern to the ASA (American Standards Association) Sectional Committee on Electric Fences, C69. Death is to be an expected result should a victim suffer a sufficient number of shocks due to his inability to release his grasp of an electrified fence during the “off” period between consecutive shocks.

  • Electric shock

    Discussion and author's closure of paper 41–7 by C. F. Dalziel, J. B. Lagen, and J. L. Thurston, presented at the AIEE winter convention, Philadelphia, Pa., January 27–31, 1941, and published in AIEE TRANSACTIONS, 1941, pages 1073–9.

  • IntelliFIBER/spl trade/: fiber optic fence sensor developments

    Many different detection technologies have been employed for perimeter detection to sensitize a barrier, including for example, strain-sensing taut wire sensors, electric fences, electrostatic sensors, and various linear "microphonic" cable-sensing devices. These outdoor perimeter fence detection sensors must reliably detect intruders attempting to cut or climb the barrier, while ignoring the effects of environmental noise including nearby activity. In a recent conference proceedings, the new IntelliFIBER fiber optic based product was introduced and compared with previous technologies. We outline the advancements in the IntelliFIBER development since introduction, as well as, the field test results obtained from sensor testing each of the different options. Some of the new IntelliFIBER advancements are in the sensing cable options. These include, for example, a hybrid cable version with both embedded power conductors and additional fibers. This feature provides a highly robust cable, one that does not require a conduit for all-weather detection, while providing an economic advantage for multiple zone perimeter applications. With this option, both the power system and data communications are secured, and the expense of adding separate perimeter power and data networks is removed. This advancement provides for further applications beyond the typical perimeter one, such as, securing data or power networks from intrusion. Field test results, from our own outdoor field test S.I.T.E., are presented for the different cable options, and also compare IntelliFIBER with its triboelectric- based counterpart, Intelli-FLEX. The long-term monitoring data includes the actual performance, in terms of probability of detection, false and nuisance alarm rates. Vulnerability to defeat is also discussed.




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