Relevant bibliographies by topics / Industrial communications

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Industrial communications'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Industrial communications"

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Karjaluoto, Heikki, Nora Mustonen, and Pauliina Ulkuniemi. "The role of digital channels in industrial marketing communications." Journal of Business & Industrial Marketing 30, no. 6 (July 6, 2015): 703–10. http://dx.doi.org/10.1108/jbim-04-2013-0092.

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Purpose – The purpose of this research is to investigate industrial marketing communications tools and the role of digital channels. The research draws from the literature on industrial marketing communications to examine its goals and intended utilization in industrial firms. Design/methodology/approach – An empirical multiple case study conducted among six industrial firms examines the current state of digital marketing communications (DMC). Findings – The study gleans three research insights. First, although DMC is one of the most important industrial marketing communication tools, firms have not yet used it to its full potential. Second, firms use DMC to enhance customer relationship communications, support sales and create awareness. Third, firms have not used social media tools as a part of DMC as widely as traditional digital tools. Research limitations/implications – Although the findings mirror those in DMC literature in general and industrial marketing communications in particular, they put more emphasis on the role of DMC in customer relationship communications and sales support. Practical implications – DMC provides an opportunity to deliver various marketing objectives, such as creating brand awareness, increasing and supporting sales and improving communication with existing customers. Different DMC tools are required for each of these objectives. Originality/value – This study is among the first ones examining the rapidly changing communications landscape and the spread of digital channels in industrial marketing communication.
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Leakey, David. "Communications in the Industrial World." Industrial Management & Data Systems 90, no. 7 (July 1990): 18–20. http://dx.doi.org/10.1108/02635579010000877.

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Korzina, Maria Igorevna. "Transformation of Visual Communications during the Fourth Industrial Revolution." Общество: философия, история, культура, no. 11 (November 13, 2020): 36–41. http://dx.doi.org/10.24158/fik.2020.11.5.

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The paper provides a philosophical analysis of the transformation processes of visual communications in the framework of such a hypothetical phenome-non as the fourth industrial revolution. In the condi-tions of the digital revolution, visual communication gets an incentive to develop, acquires new proper-ties in the new conditions of development of post-industrial and digital society. As a scientific disci-pline, visual communication is at the stage of full-scale development and search for interdisciplinary connections. The author examines the history of visual communications from the Ancient world to the present, identifies their main features at the pre-sent stage of development, and analyzes the exam-ple of virtualization of a Museum exhibition because of modern transformation of the communication environment.
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Russell, Andrew L. "“Industrial Legislatures”: Consensus Standardization in the Second and Third Industrial Revolutions." Enterprise & Society 10, no. 4 (December 2009): 661–74. http://dx.doi.org/10.1017/s1467222700008302.

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My dissertation is a study of standardization in four communications networks: AT&T's monopoly telephone network, the Internet, digital cellular telephone networks, and the World Wide Web. A history of these networks that highlights standardization shows how engineers in industry committees replaced managers in monopoly hierarchies as the stewards of standards for communication networks. By the end of the twentieth century, the new networks—and the new institutions devised to sustain the standardization process—formed the technological and ideological infrastructure of the Third Industrial Revolution.
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Middaugh, K. M. "A comparison of industrial communications networks." IEEE Transactions on Industry Applications 29, no. 5 (1993): 846–53. http://dx.doi.org/10.1109/28.245705.

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Mansour, Ikbal, Eric Rondeau, and Thierry Divoux. "Industrial systems communications: Design and integration." International Journal of Computer Integrated Manufacturing 14, no. 6 (January 2001): 545–59. http://dx.doi.org/10.1080/09511920110040584.

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Saadi, Dominic E., Mark Sutcliffe, Yaneer Bar-Yam, and Alfredo J. Morales. "Functional and Social Team Dynamics in Industrial Settings." Complexity 2020 (March 23, 2020): 1–18. http://dx.doi.org/10.1155/2020/8301575.

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Like other social systems, corporations comprise networks of individuals that share information and create interdependencies among their actions. The properties of these networks are crucial to a corporation’s success. Understanding how individuals self-organize into teams and how this relates to performance is a challenge for managers and management software developers looking for ways to enhance corporate tasks. In this paper, we analyze functional and social communication networks from industrial production plants and relate their properties to performance. We use internal management software data that reveal aspects of functional and social communications among workers. We found that distinct features of functional and social communication networks emerge. The former are asymmetrical, and the latter are segregated by job title, i.e., executives, managers, supervisors, and operators. We show that performance is negatively correlated with the volume of functional communications but positively correlated with the density of the emerging communication networks. Exposing social dynamics in the workplace matters given the increasing digitization and automation of corporate tasks and managerial processes.
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Чернобровкіна, Світлана. "MARKETING COMMUNICATIONS OF INDUSTRIAL ENTERPRISES: THEORETICAL ASPECTS." Bulletin of the National Technical University "Kharkiv Polytechnic Institute" (economic sciences), no. 23 (February 2, 2019): 111–14. http://dx.doi.org/10.20998/2519-4461.2019.23.111.

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Thompson, Bob. "Information and communications technology and industrial property." Journal of Property Investment & Finance 23, no. 6 (December 2005): 506–15. http://dx.doi.org/10.1108/14635780510626547.

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Bartolomeu, Paulo, Muhammad Alam, Joaquim Ferreira, and Jose Alberto Fonseca. "Supporting Deterministic Wireless Communications in Industrial IoT." IEEE Transactions on Industrial Informatics 14, no. 9 (September 2018): 4045–54. http://dx.doi.org/10.1109/tii.2018.2825998.

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Dissertations / Theses on the topic "Industrial communications"

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Harrison, David. "Bridges and communications in pre-industrial England." Thesis, University of Oxford, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.339025.

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Kaghazchi, Hassan. "A diagnostics model for industrial communications networks." Thesis, University of Sunderland, 2015. http://sure.sunderland.ac.uk/5651/.

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Over the past twenty years industrial communications networks have become common place in most industrial plants. The high availability of these networks is crucial in smooth plant operations. Therefore local and remote diagnostics of these networks is of primary importance in solving any existing or emerging network problems. Users for most part consider the “plant networks” as black boxes, and often not sure of the actual health of the networks. The major part of the work outlined in this research concentrates on the proposed “Network Diagnostics Model” for local and remote monitoring. The main objective of the research is to aid the establishment of tools and techniques for diagnosis of the industrial networks, with particular emphasis on PROFIBUS and PROFINET. Additionally this research has resulted in development of a number of devices to aid in network diagnostics. The work outlined in this submission contributes to the developments in the area of online diagnostics systems. The development work was conducted in the following phases: 1. Development of Function Block (FB) for diagnosing PROFIBUS network for implementation on PLC. 2. Development of OPC server for diagnosing PROFIBUS network for implementation on PC. 3. Development of a web based diagnostic software for multiple fieldbuses for implementation on imbedded XP platform. 4. Development of OPC server for diagnosing PROFINET network for implementation on PC 5. Conformance testing of masters (PLC) in PROFIBUS network to increase the health of the network. 6. Use of diagnostics tools for performance analysis of fieldbuses networks for high performance applications. The research work outlined in this submission has made a significant and coherent contribution to online diagnostics of fieldbus communications networks, and has paved the way for the introduction of the online diagnostics devices to the market place. It has shown that the proposed model provides a uniform framework for research and development of diagnostics tools and techniques for fieldbus networks. Organizations that use fieldbus should consider installing advanced online diagnostic systems to boost maintenance efficiency and reduce operating costs, and maintain the availability of plant resources. Based on the experience gained over a number of years a multilayer model is proposed for future development of diagnostics tools.
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Soderi, S. (Simone). "Evaluation of industrial wireless communications systems’ security." Doctoral thesis, Oulun yliopisto, 2016. http://urn.fi/urn:isbn:9789526212463.

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Abstract The worldwide success of wireless communications was originally fueled by the possibility to replace existing cables with wireless solutions. This phenomenon imposed the development of security engineering as a multidisciplinary field. Although wireless solutions can reduce installation costs and allow introducing new services, the end–users expect it to have the same level of security as they would normally have with wired solutions. Secure communications is an important part of the overall security of industrial wireless communications systems (IWCS). The aim of this thesis is to develop new security engineering methodologies for IWCS. The author develops countermeasures against confidentiality and integrity attacks and carries out a security analysis covering the protocol, electromagnetic and physical layer. In the first part of the thesis, Host Identity Protocol (HIP) is utilized to secure communication in an intra–vehicular network. Simulations and measurement campaigns are also conducted to evaluate the impact of the overhead on security in a tunnel, considering line–of–sight (LOS) and non–LOS (NLOS) scenarios. Electromagnetic analysis (EMA) is an important step in the development of safety–related systems. Today, the increasing usage of smaller integrated circuit also increases the susceptibility to electromagnetic (EM) interference. From near–field (NF) to far–field (FF) transformation, a method for the evaluation of the emissions leakage is investigated. The virtual EM (VEM) interface of the device–under–test (DUT) is studied, and it is described how an adversary can exploit it for denial of service (DoS) attacks. An effective jamming attack model is studied, and the theoretical calculations are validated with experiment–based results. Finally, focusing attention on physical layer security, two algorithms are developed. Active radio frequency fingerprinting (RFF) implements the exchange of a public key during the setup of secure communication. Afterwards, utilizing a jamming receiver in conjunction with the spread spectrum (SS) watermarking technique, the watermark–based blind physical layer security (WBPLSec) protocol is presented. The analysis and results indicate how the WBPLSec seems to be a valuable technique for deploying physical layer security by creating a secure region around the receiver
Tiivistelmä Langattoman tietoliikenteen maailmanlaajuista suosiota kiihdytti alun perin mahdollisuus korvata tietoliikennejärjestelmissä käytetyt kaapelit langattomilla ratkaisuilla. Ilmiö lisäsi myös tarvetta kehittää alan turvatekniikkaa monialaisen tutkimuksen pohjalta. Vaikka langattomat ratkaisut merkitsevät pienempiä asennuskustannuksia ja tarjoavat mahdollisuuksia luoda uudenlaisia palveluja, järjestelmien loppukäyttäjät edellyttävät kuitenkin niiden turvallisuuden olevan vastaavalla tasolla kuin langallisissa verkoissa. Myös teollisuuden langattomien tietoliikennejärjestelmen turvallisuus riippuu pitkälti viestintäkanavien turvallisuudesta. Väitöksen tavoitteena on kehittää uusia menetelmiä, joilla teollisuuden langattomat tietoliikennejärjestelmät voitaisiin turvata. Väitöksessä kehitetään toimenpiteitä tietoliikennejärjestelmien luottamuksellisuuteen ja koskemattomuuteen kohdistuvia hyökkäyksiä vastaan ja toteutetaan turvallisuusarviointi, joka kattaa järjestelmän protokollakerroksen sekä sähkömagneettisen ja fyysisen kerroksen. Väitöksen ensimmäisessä osassa hyödynnetään HIP–protokollaa (Host Identity Protocol) liikennevälineen sisäisen tietoliikennejärjestelmän turvallisuuden varmistamisessa. Lisäksi siinä kuvataan simulaatiot ja mittaushankkeet, joiden tavoitteena on arvioida käytetyn protokollan turvallisuusvaikutuksia esteettömän (line–of–sight, LOS) ja esteellisen (non–line–of–sight, NLOS) näköyhteyden tapauksissa. Sähkömagneettinen analyysi on tärkeä vaihe turvajärjestelmien kehitysprosessissa. Järjestelmissä käytetään yhä enemmän pieniä integroituja piirejä, mikä voi myös altistaa ne sähkömagneettisille (electromagnetic, EM) häiriöille. Väitöksessä tutkitaan lähikenttä–kaukokenttä -muunnokseen perustuvan arviointimenetelmän avulla sähkömagneettisen vuotosäteilyn tasoa. Lisäksi perehdytään testattavan laitteen (device under test, DUT) virtuaaliseen EM–liitäntään ja kuvataan, miten vastaavaa liitäntää voidaan hyödyntää palvelunestohyökkäyksissä. Väitöksessä tutkitaan myös tehokasta häirintämallia ja validoidaan teoreettisten laskelmien tulokset kokeellisesti. Lopuksi väitöksessä keskitytään tietoliikennejärjestelmän fyysisen kerroksen turvallisuuteen ja kehitetään kaksi algoritmia. Aktiivisen radiotaajuisen tunnistusmenetelmän avulla voidaan vaihtaa julkisia avaimia turvallista tietoliikenneyhteyttä muodostettaessa. Lisäksi esitellään vesileimausmenetelmään perustuva fyysisen kerroksen salausmenetelmä, WBPLSec. WBPLSec luo vastaanottimen ympärille suoja–alueen, minkä ansiosta se vaikuttaa analyysin ja tutkimustulosten perusteella olevan tehokas menetelmä toteuttaa fyysisen kerroksen suojaus
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College, Linda. "An analysis of communications between the United States Army Communications-Electronics Command and industry." Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 2002. http://library.nps.navy.mil/uhtbin/hyperion-image/02Dec%5FCollege.pdf.

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Thesis (M.S. in Contract Management)--Naval Postgraduate School, December 2002.
Thesis advisor(s): Jeffrey R. Cuskey, Gary D. Notte. Includes bibliographical references (p. 101-102). Also available online.
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Hinton, Jan Michele. "A study of the Communications Services Industrial Fund." Thesis, Monterey, California. Naval Postgraduate School, 1985. http://hdl.handle.net/10945/21562.

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Kongezos, Valentinos. "An investigation into industrial D.C.S. using wireless communications." Thesis, University of Newcastle Upon Tyne, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.399314.

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Hendricks, Robert W. "Communications technology : a taxonomy /." The Ohio State University, 1986. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487267024995694.

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Raza, Mohsin. "Efficient and reliable communications in industrial wireless sensor networks." Thesis, Northumbria University, 2018. http://nrl.northumbria.ac.uk/36268/.

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Communications infrastructure plays an important role in industrial monitoring, automation and process control. Recently, wireless solutions have emerged to offer communications in industrial processes to establish feedback control. Due to cost efficiency, localized processing, application specific and resource efficient design, flexibility, and self-healing abilities, Industrial Wireless Sensor Networks (IWSNs) emerge as the most promising technology for industrial automation. Despite the seamless advantages, IWSNs still suffer from the reliability and real-time data delivery issues inherent in the wireless networks. These issues are more prominent in the emergency communications, regulatory feedback control systems and supervisory feedback control systems. The research focuses on communications and system feedback related problems of IWSNs in applications in automation and process control industry including, emergency systems, regulatory control systems, supervisory control systems open loop control systems, alerting systems and monitoring systems. The research targets communication assurances, reliability improvement, real-time sensory data propagation and energy efficiency in IWSNs. It also targets the traffic scheduling from heterogeneous sensing nodes to improve the overall network efficiency, reliable data scheduling and deterministic schedule formation for coexisting industrial systems. The notable contributions of the research cover following aspects of IWSNs • A novel scheme is proposed to ensure instant channel access for emergency communications. The scheme integrates emergency communications within the regular communications channel without compromising the reliability and time sensitivity of the information. Thus, improving network flexibility along with improved reliability and real-time data delivery. The improvements proposed in the emergency communications are further extended to the regulatory control and supervisory control applications where superframe of variable durations are introduced to offer higher reliability within the communication feedback links. • Dynamic priority system is proposed which takes in to consideration the critical parameters in industrial processes to offer suitable urgency index to the sensory data based on real-time analysis of parameters. Using the priority system, MAC layer optimizations are proposed to 1) improve the reliability of high priority nodes’ communications, 2) ensure pre-specified Packet Reception Rate (PRR) within the network. • An efficient update mechanism is proposed to offer improved energy efficiency and network reliability in gradient-based routing protocols. Two schemes: periodic setup and multiple setup, are proposed along with secondary update mechanisms to keeps the routing path updated with minimal control overhead. Furthermore, an optimizable gradient cost function is also proposed. • A low complexity, scheduling algorithm is proposed, which allows multiple classes of industrial systems to coexist and share same wireless resource and to distinctly schedule information from diverse industrial processes with heterogeneous time deadlines.
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Rafibakhsh, Nima. "Industrial Applications of Microsoft Xbox Kinect Sensor." Thesis, Southern Illinois University at Edwardsville, 2014. http://pqdtopen.proquest.com/#viewpdf?dispub=1549815.

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Sensing and site data acquisition are active areas of research for industrial applications, particularly, for construction engineering and management. A number of research initiatives around the globe are focused on noble sensing applications for managing site safety, productivity improvements, progress monitoring, site lay out planning, and for innovative approaches to supply chain management. Time of Flight (TOF) cameras and laser scanners are the tools of choice for real time and near real time decision making on jobsites. However, most of these applications are limited to academic research and limited field trials have been carried out. A number of operational decisions are necessary before sensing equipment can be deployed. These decisions are challenging for companies and researchers alike as there is limited test data available regarding the performance characteristics for the various equipment options. Recently with technological advances, Microsoft introduced a very affordable new TOF sensor, Xbox Kinect for video games. The objective of this research is to investigate potential industrial applications of this device to monitor industrial environment for safety and modeling purposes. First we conducted designed experiments and characterized the accuracy and resolution of Xbox Kinect sensors as well as the interference between multiple Xbox Kinect sensors. The experiments provided quantitative knowledge about the performance of XBOX Kinect sensors in terms of spatial modeling. Second, using the experimental results as the baseline for Kinect performance, we developed optimal placement methods of Kinect sensors to maximize detection area or performance using fuzzy and heuristic algorithms. Third, we investigated the application of Kinect sensors for 3D reconstruction and rapid modeling and reported its performance in comparison with two other methods..

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Drew, Jesse Tom A. "Global communications in the post-industrial age : a study of the communications strategies of US labor organizations /." Digital version accessible at:, 1998. http://wwwlib.umi.com/cr/utexas/main.

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Books on the topic "Industrial communications"

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Industrial data communications. 4th ed. Research Triangle Park, NC: ISA, 2008.

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Thompson, Lawrence M. Industrial data communications: Fundamentalsand applications. Research Triangle Park, N.C: Instrument Society of America, 1991.

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Thompson, Lawrence M. Industrial data communications: Fundamentals and applications. 2nd ed. Research Triangle Park, NC: Instrument Society of America, 1997.

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Thompson, Lawrence M. Industrial data communications: Fundamentals and applications. Research Triangle Park, N.C: Instrument Society of America, 1991.

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Kuster, Niels. Mobile Communications Safety. Boston, MA: Springer US, 1996.

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Messner, Fredrick R. Business to business communications handbook. Lincolnwood, Ill: NTC Business Books in conjunction with the Association of National Advertisers, 1992.

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Co, Rohm. Rohm data book: Industrial ICs (computer, communications). Milton Keynes: Rohm, 1992.

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Algar, Philip. Managing industrial emergencies: A planning and communications guide. London: Financial Times Business Information, 1992.

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Hinton, Jan Michele. A study of the Communications Services Industrial Fund. Monterey, Calif: Naval Postgraduate School, 1985.

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Kalyanvala, Leena. Industrial relations and communications in a white-collar environment. [s.l.]: typescript, 1987.

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Book chapters on the topic "Industrial communications"

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Napoli, Julie. "Industrial Communications." In Proceedings of the 2000 Academy of Marketing Science (AMS) Annual Conference, 487. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-11885-7_137.

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Krist, Petr. "Advanced Industrial Communications." In Studies in Computational Intelligence, 365–76. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-642-03737-5_26.

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Weik, Martin H. "industrial robot." In Computer Science and Communications Dictionary, 771. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_8888.

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Dey, Chanchal, and Sunit Kumar Sen. "Open Platform Communications (OPC)." In Industrial Automation Technologies, 311–46. First edition. | Boca Raton, FL : CRC Press, 2020.: CRC Press, 2020. http://dx.doi.org/10.1201/9780429299346-8.

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Dethridge, Lisa. "Arts and Communications." In The Fourth Industrial Revolution, 107–24. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1614-3_7.

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Weik, Martin H. "manipulating industrial robot." In Computer Science and Communications Dictionary, 972. Boston, MA: Springer US, 2000. http://dx.doi.org/10.1007/1-4020-0613-6_11017.

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Katebi, Reza, Michael A. Johnson, and Jacqueline Wilkie. "Fieldbus and Data communications." In Advances in Industrial Control, 167–91. London: Springer London, 1999. http://dx.doi.org/10.1007/978-1-4471-0423-0_7.

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Elattar, Mohammad, Verena Wendt, and Jürgen Jasperneite. "Communications for Cyber-Physical Systems." In Industrial Internet of Things, 347–72. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-42559-7_13.

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Kim, Dong-Seong, and Hoa Tran-Dang. "Wireless Fieldbus for Industrial Networks." In Computer Communications and Networks, 115–25. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-030-04927-0_9.

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Cecílio, José, and Pedro Furtado. "Industrial Protocols and Planning Considerations." In Computer Communications and Networks, 27–40. Cham: Springer International Publishing, 2013. http://dx.doi.org/10.1007/978-3-319-02889-7_4.

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Conference papers on the topic "Industrial communications"

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"Session industrial communications." In 2008 IEEE International Workshop on Factory Communication Systems. IEEE, 2008. http://dx.doi.org/10.1109/wfcs.2008.4638777.

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"Industrial automation, communications and informatics." In 2016 IEEE International Conference on Industrial Technology (ICIT). IEEE, 2016. http://dx.doi.org/10.1109/icit.2016.7474855.

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"System integration, industrial informatics and communications." In 2010 IEEE International Conference on Industrial Technology. IEEE, 2010. http://dx.doi.org/10.1109/icit.2010.5472552.

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"Communications for Industrial and Factory Automation." In IECON 2018 - 44th Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2018. http://dx.doi.org/10.1109/iecon.2018.8591314.

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"COMSWARE 2008 Industrial communications - W2-3." In 2008 3rd International Conference on Communication Systems Software and Middleware and Workshops (COMSWARE '08). IEEE, 2008. http://dx.doi.org/10.1109/comswa.2008.4554490.

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Joao, L., W. Karl-Heinz, and V. Alexander. "Industrial powerline communication for machine tools and industrial robots." In 2013 IEEE 17th International Symposium on Power Line Communications and its Applications (ISPLC). IEEE, 2013. http://dx.doi.org/10.1109/isplc.2013.6525876.

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"TT information communications technology — Communications for industrial and factory automation." In IECON 2017 - 43rd Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2017. http://dx.doi.org/10.1109/iecon.2017.8216568.

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Athanasiou, George, Pradeep Chathuranga Weeraddana, Carlo Fischione, and Pal Orten. "Communication infrastructures in industrial automation: The case of 60 GHz millimeterWave communications." In 2013 IEEE 18th Conference on Emerging Technologies & Factory Automation (ETFA). IEEE, 2013. http://dx.doi.org/10.1109/etfa.2013.6648096.

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Cena, Gianluca, Adriano Valenzano, and Stefano Vitturi. "Wireless Extensions of Wired Industrial Communications Networks." In 2007 5th IEEE International Conference on Industrial Informatics. IEEE, 2007. http://dx.doi.org/10.1109/indin.2007.4384768.

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Berenguer, Pablo Wilke, Dominic Schulz, Johannes Karl Fischer, and Volker Jungnickel. "Optical wireless communications in industrial production environments." In 2017 IEEE Photonics Conference (IPC). IEEE, 2017. http://dx.doi.org/10.1109/ipcon.2017.8116033.

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Reports on the topic "Industrial communications"

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Ivers, James. Lessons Learned Model Checking an Industrial Communications Library. Fort Belvoir, VA: Defense Technical Information Center, September 2005. http://dx.doi.org/10.21236/ada443503.

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Liu, Yongkang, Mohamed Hany, Karl Montgomery, and Richard Candell. A Collaborative Robot Work-Cell Testbed for Industrial Wireless Communications. National Institute of Standards and Technology, May 2021. http://dx.doi.org/10.6028/nist.ir.8365.

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Forbes, Jr, and Marlin G. High Performance Computing and Communications Initiative: A Paradigm for National Industrial Policy? Fort Belvoir, VA: Defense Technical Information Center, April 1992. http://dx.doi.org/10.21236/ada262246.

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DEFENSE BUSINESS BOARD WASHINGTON DC. Task Group on an Outreach Plan to Improve Communications Between the Department of Defense and the Defense Industrial Base. Fort Belvoir, VA: Defense Technical Information Center, July 2009. http://dx.doi.org/10.21236/ada506565.

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de Mateo Pérez, R. Cultural and communication industries: Myth and logic of the terms creativity and entrepreneurial innovation. Revista Latina de Comunicación Social, December 2015. http://dx.doi.org/10.4185/rlcs-2015-1073en.

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Beiker, Sven. Unsettled Issues Regarding Communication of Automated Vehicles with Other Road Users. SAE International, November 2020. http://dx.doi.org/10.4271/epr2020023.

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The focus of this SAE EDGE™ Research Report is to address a topic overlooked by many who choose to view automated driving systems and AVs from a “10,000-foot” perspective: how automated vehicles (AVs) will actually communicate with other road users. Conventional (human-driven) vehicles, bicyclists, and pedestrians already have a functioning system of understating each other while on the move. Adding automated vehicles to the mix requires assessing the spectrum of existing modes of communication – both implicit and explicit, biological and technological, and how they will interact with each other in the real world. The impending deployment of AVs represents a major shift in the traditional approach to ground transportation; its effects will inevitably be felt by parties directly involved with the vehicle manufacturing and use and those that play roles in the mobility ecosystem (e.g., aftermarket and maintenance industries, infrastructure and planning organizations, automotive insurance providers, marketers, telecommunication companies). Unsettled Issues Regarding Communication of Automated Vehicles with Other Road Users brings together the multiple scenarios we are likely to see in a future not too far away and how they are likely to play out in practical ways.
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Anderson, David M., Michael G. Hoffman, Jackie M. Niemeyer, and Todd J. Samuel. Economic and Physical Linkages of the Information and Communication Technology (ICT) Service Industry to Key Industries of the Economy: An Ad Hoc Report. Office of Scientific and Technical Information (OSTI), January 2017. http://dx.doi.org/10.2172/1344050.

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Torres-Mancera, Rocio, Carlos de las Heras-Pedrosa, Carmen Jambrino-Maldonado, and Patricia P. Iglesias-Sanchez. Public Relations and the Fundraising professional in the Cultural Heritage Industry: a study of Spain and Mexico / Las relaciones públicas y el profesional de la captación de fondos en la industria del patrimonio cultural: un estudio de España y México. Revista Internacional de Relaciones Públicas, June 2021. http://dx.doi.org/10.5783/rirp-21-2021-03-27-48.

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The present research aims to understand the current situation of strategic communication and public relations applied in the professional field of fundraising in the cultural heritage environment. It observes the current patterns used in the sector to obtain and generate long-term sustainable funding, through the stimulation of investors and International Cooperation projects from the European Union in line with UNESCO. Two international case studies are compared: Spain and Mexico, through the selection of territorial samples in Malaga and San Luis Potosi. The methodology used is based on a combination of in-depth interviews with key informants and content analysis. In the first instance, the degree of application of communication and public relations tools for strategic purposes to directly attract economic resources to the management of cultural heritage (tangible and intangible) in the region is studied. In line with the results obtained, the current parameters and key indicators of the profile of the fundraising professional in public and private cultural management are presented.
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Atkinson, Dan, and Alex Hale, eds. From Source to Sea: ScARF Marine and Maritime Panel Report. Society of Antiquaries of Scotland, September 2012. http://dx.doi.org/10.9750/scarf.09.2012.126.

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The main recommendations of the panel report can be summarised under four headings: 1. From Source to Sea: River systems, from their source to the sea and beyond, should form the focus for research projects, allowing the integration of all archaeological work carried out along their course. Future research should take a holistic view of the marine and maritime historic environment, from inland lakes that feed freshwater river routes, to tidal estuaries and out to the open sea. This view of the landscape/seascape encompasses a very broad range of archaeology and enables connections to be made without the restrictions of geographical or political boundaries. Research strategies, programmes From Source to Sea: ScARF Marine and Maritime Panel Report iii and projects can adopt this approach at multiple levels; from national to site-specific, with the aim of remaining holistic and cross-cutting. 2. Submerged Landscapes: The rising research profile of submerged landscapes has recently been embodied into a European Cooperation in Science and Technology (COST) Action; Submerged Prehistoric Archaeology and Landscapes of the Continental Shelf (SPLASHCOS), with exciting proposals for future research. Future work needs to be integrated with wider initiatives such as this on an international scale. Recent projects have begun to demonstrate the research potential for submerged landscapes in and beyond Scotland, as well as the need to collaborate with industrial partners, in order that commercially-created datasets can be accessed and used. More data is required in order to fully model the changing coastline around Scotland and develop predictive models of site survival. Such work is crucial to understanding life in early prehistoric Scotland, and how the earliest communities responded to a changing environment. 3. Marine & Maritime Historic Landscapes: Scotland’s coastal and intertidal zones and maritime hinterland encompass in-shore islands, trans-continental shipping lanes, ports and harbours, and transport infrastructure to intertidal fish-traps, and define understanding and conceptualisation of the liminal zone between the land and the sea. Due to the pervasive nature of the Marine and Maritime historic landscape, a holistic approach should be taken that incorporates evidence from a variety of sources including commercial and research archaeology, local and national societies, off-shore and onshore commercial development; and including studies derived from, but not limited to history, ethnology, cultural studies, folklore and architecture and involving a wide range of recording techniques ranging from photography, laser imaging, and sonar survey through to more orthodox drawn survey and excavation. 4. Collaboration: As is implicit in all the above, multi-disciplinary, collaborative, and cross-sector approaches are essential in order to ensure the capacity to meet the research challenges of the marine and maritime historic environment. There is a need for collaboration across the heritage sector and beyond, into specific areas of industry, science and the arts. Methods of communication amongst the constituent research individuals, institutions and networks should be developed, and dissemination of research results promoted. The formation of research communities, especially virtual centres of excellence, should be encouraged in order to build capacity.
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African Open Science Platform Part 1: Landscape Study. Academy of Science of South Africa (ASSAf), 2019. http://dx.doi.org/10.17159/assaf.2019/0047.

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This report maps the African landscape of Open Science – with a focus on Open Data as a sub-set of Open Science. Data to inform the landscape study were collected through a variety of methods, including surveys, desk research, engagement with a community of practice, networking with stakeholders, participation in conferences, case study presentations, and workshops hosted. Although the majority of African countries (35 of 54) demonstrates commitment to science through its investment in research and development (R&D), academies of science, ministries of science and technology, policies, recognition of research, and participation in the Science Granting Councils Initiative (SGCI), the following countries demonstrate the highest commitment and political willingness to invest in science: Botswana, Ethiopia, Kenya, Senegal, South Africa, Tanzania, and Uganda. In addition to existing policies in Science, Technology and Innovation (STI), the following countries have made progress towards Open Data policies: Botswana, Kenya, Madagascar, Mauritius, South Africa and Uganda. Only two African countries (Kenya and South Africa) at this stage contribute 0.8% of its GDP (Gross Domestic Product) to R&D (Research and Development), which is the closest to the AU’s (African Union’s) suggested 1%. Countries such as Lesotho and Madagascar ranked as 0%, while the R&D expenditure for 24 African countries is unknown. In addition to this, science globally has become fully dependent on stable ICT (Information and Communication Technologies) infrastructure, which includes connectivity/bandwidth, high performance computing facilities and data services. This is especially applicable since countries globally are finding themselves in the midst of the 4th Industrial Revolution (4IR), which is not only “about” data, but which “is” data. According to an article1 by Alan Marcus (2015) (Senior Director, Head of Information Technology and Telecommunications Industries, World Economic Forum), “At its core, data represents a post-industrial opportunity. Its uses have unprecedented complexity, velocity and global reach. As digital communications become ubiquitous, data will rule in a world where nearly everyone and everything is connected in real time. That will require a highly reliable, secure and available infrastructure at its core, and innovation at the edge.” Every industry is affected as part of this revolution – also science. An important component of the digital transformation is “trust” – people must be able to trust that governments and all other industries (including the science sector), adequately handle and protect their data. This requires accountability on a global level, and digital industries must embrace the change and go for a higher standard of protection. “This will reassure consumers and citizens, benefitting the whole digital economy”, says Marcus. A stable and secure information and communication technologies (ICT) infrastructure – currently provided by the National Research and Education Networks (NRENs) – is key to advance collaboration in science. The AfricaConnect2 project (AfricaConnect (2012–2014) and AfricaConnect2 (2016–2018)) through establishing connectivity between National Research and Education Networks (NRENs), is planning to roll out AfricaConnect3 by the end of 2019. The concern however is that selected African governments (with the exception of a few countries such as South Africa, Mozambique, Ethiopia and others) have low awareness of the impact the Internet has today on all societal levels, how much ICT (and the 4th Industrial Revolution) have affected research, and the added value an NREN can bring to higher education and research in addressing the respective needs, which is far more complex than simply providing connectivity. Apart from more commitment and investment in R&D, African governments – to become and remain part of the 4th Industrial Revolution – have no option other than to acknowledge and commit to the role NRENs play in advancing science towards addressing the SDG (Sustainable Development Goals). For successful collaboration and direction, it is fundamental that policies within one country are aligned with one another. Alignment on continental level is crucial for the future Pan-African African Open Science Platform to be successful. Both the HIPSSA ((Harmonization of ICT Policies in Sub-Saharan Africa)3 project and WATRA (the West Africa Telecommunications Regulators Assembly)4, have made progress towards the regulation of the telecom sector, and in particular of bottlenecks which curb the development of competition among ISPs. A study under HIPSSA identified potential bottlenecks in access at an affordable price to the international capacity of submarine cables and suggested means and tools used by regulators to remedy them. Work on the recommended measures and making them operational continues in collaboration with WATRA. In addition to sufficient bandwidth and connectivity, high-performance computing facilities and services in support of data sharing are also required. The South African National Integrated Cyberinfrastructure System5 (NICIS) has made great progress in planning and setting up a cyberinfrastructure ecosystem in support of collaborative science and data sharing. The regional Southern African Development Community6 (SADC) Cyber-infrastructure Framework provides a valuable roadmap towards high-speed Internet, developing human capacity and skills in ICT technologies, high- performance computing and more. The following countries have been identified as having high-performance computing facilities, some as a result of the Square Kilometre Array7 (SKA) partnership: Botswana, Ghana, Kenya, Madagascar, Mozambique, Mauritius, Namibia, South Africa, Tunisia, and Zambia. More and more NRENs – especially the Level 6 NRENs 8 (Algeria, Egypt, Kenya, South Africa, and recently Zambia) – are exploring offering additional services; also in support of data sharing and transfer. The following NRENs already allow for running data-intensive applications and sharing of high-end computing assets, bio-modelling and computation on high-performance/ supercomputers: KENET (Kenya), TENET (South Africa), RENU (Uganda), ZAMREN (Zambia), EUN (Egypt) and ARN (Algeria). Fifteen higher education training institutions from eight African countries (Botswana, Benin, Kenya, Nigeria, Rwanda, South Africa, Sudan, and Tanzania) have been identified as offering formal courses on data science. In addition to formal degrees, a number of international short courses have been developed and free international online courses are also available as an option to build capacity and integrate as part of curricula. The small number of higher education or research intensive institutions offering data science is however insufficient, and there is a desperate need for more training in data science. The CODATA-RDA Schools of Research Data Science aim at addressing the continental need for foundational data skills across all disciplines, along with training conducted by The Carpentries 9 programme (specifically Data Carpentry 10 ). Thus far, CODATA-RDA schools in collaboration with AOSP, integrating content from Data Carpentry, were presented in Rwanda (in 2018), and during17-29 June 2019, in Ethiopia. Awareness regarding Open Science (including Open Data) is evident through the 12 Open Science-related Open Access/Open Data/Open Science declarations and agreements endorsed or signed by African governments; 200 Open Access journals from Africa registered on the Directory of Open Access Journals (DOAJ); 174 Open Access institutional research repositories registered on openDOAR (Directory of Open Access Repositories); 33 Open Access/Open Science policies registered on ROARMAP (Registry of Open Access Repository Mandates and Policies); 24 data repositories registered with the Registry of Data Repositories (re3data.org) (although the pilot project identified 66 research data repositories); and one data repository assigned the CoreTrustSeal. Although this is a start, far more needs to be done to align African data curation and research practices with global standards. Funding to conduct research remains a challenge. African researchers mostly fund their own research, and there are little incentives for them to make their research and accompanying data sets openly accessible. Funding and peer recognition, along with an enabling research environment conducive for research, are regarded as major incentives. The landscape report concludes with a number of concerns towards sharing research data openly, as well as challenges in terms of Open Data policy, ICT infrastructure supportive of data sharing, capacity building, lack of skills, and the need for incentives. Although great progress has been made in terms of Open Science and Open Data practices, more awareness needs to be created and further advocacy efforts are required for buy-in from African governments. A federated African Open Science Platform (AOSP) will not only encourage more collaboration among researchers in addressing the SDGs, but it will also benefit the many stakeholders identified as part of the pilot phase. The time is now, for governments in Africa, to acknowledge the important role of science in general, but specifically Open Science and Open Data, through developing and aligning the relevant policies, investing in an ICT infrastructure conducive for data sharing through committing funding to making NRENs financially sustainable, incentivising open research practices by scientists, and creating opportunities for more scientists and stakeholders across all disciplines to be trained in data management.
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