Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems

Short message integrated distributed monitoring systems (SM-DMS) are growing rapidly in wireless communication applications in various areas, such as electromagnetic field (EMF) management, wastewater monitoring, and air pollution supervision, etc. However, delay in short messages often makes the da...

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Main Authors: Xin, Sui, Chunsheng, Li, Di, Tian
Format: Text
Language:English
Published: Zenodo 2007
Subjects:
Delay
SMS
reliability
distributed monitoringsystem DMS
wireless communication.
Arctic
Blair
Gonzalez
Guillaume
Haro
Kung
Lopez
Lorna
Prieto
Ramos
Rosario
Steere
Online Access:https://dx.doi.org/10.5281/zenodo.1076561
https://zenodo.org/record/1076561
id ftdatacite:10.5281/zenodo.1076561
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic Delay
SMS
reliability
distributed monitoringsystem DMS
wireless communication.
spellingShingle Delay
SMS
reliability
distributed monitoringsystem DMS
wireless communication.
Xin, Sui
Chunsheng, Li
Di, Tian
Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems
topic_facet Delay
SMS
reliability
distributed monitoringsystem DMS
wireless communication.
description Short message integrated distributed monitoring systems (SM-DMS) are growing rapidly in wireless communication applications in various areas, such as electromagnetic field (EMF) management, wastewater monitoring, and air pollution supervision, etc. However, delay in short messages often makes the data embedded in SM-DMS transmit unreliably. Moreover, there are few regulations dealing with this problem in SMS transmission protocols. In this study, based on the analysis of the command and data requirements in the SM-DMS, we developed a processing model for the control center to solve the delay problem in data transmission. Three components of the model: the data transmission protocol, the receiving buffer pool method, and the timer mechanism were described in detail. Discussions on adjusting the threshold parameter in the timer mechanism were presented for the adaptive performance during the runtime of the SM-DMS. This model optimized the data transmission reliability in SM-DMS, and provided a supplement to the data transmission reliability protocols at the application level. : {"references": ["W. Stallings, Local and metropolitan area networks, 4th Edition,\nMacmillan Publishing Company, 1993", "Jia. Hong-Yu, Zhao. Jun-Feng, and Xiaoxing Weixing, \"Principle and\ndesign of the short message service platform\", Jisuanji\nXitong/Mini-Micro Systems, vol. 24, no.5, pp. 819, May. 2003", "Yan. Xu, \"Mobile data communications in China\", Communications of\nthe ACM, v46, no.12, pp. 80-85, Dec. 2003", "Ribeiro. Joao Araujo, De Farias. Oscar Luis Monteiro, and Roque. Luiz\nAlberto Oliveira Lima, \"A framework for environmental monitoring\ninformation systems\", in International Geoscience and Remote Sensing\nSymposium (IGARSS), v6, 2004 IEEE International Geoscience and\nRemote Sensing Symposium Proceedings: Science for Society: Exploring\nand Managing a Changing Planet. IGARSS 2004, 2004, pp. 3603-3606", "Jin. Wei-Liang, Shao. Jian-Wen, and Zhang. En-Yong, \"Basic strategy of\nhealth monitoring on submarine pipeline by distributed optical fiber\nsensor\", in Proceedings of the International Conference on Offshore\nMechanics and Arctic Engineering - OMAE, vol. 2, 2003, pp. 531-536", "Bucci.G, Fiorucci. E, and Landi. C, \"Digital measurement station for\npower quality analysis in distributed environments\", in Conference\nRecord - IEEE Instrumentation and Measurement Technology\nConference, vol. 1, 2001, pp. 368-373", "De Capua. C, Morello. R, and Pasquino. N, \"A mobile distributed\narchitecture for measurement and analysis of the electromagnetic field\",\nin Conference Record - IEEE Instrumentation and Measurement\nTechnology Conference, vol. 3, Proceedings of the 21st IEEE\nInstrumentation and Measurement Technology Conference, IMTC/04,\n2004, pp. 2090-2094", "Ratib. Osman, Dahlbom. Maggie, Zucek. Jamie M, Kong. Kinchi,\nMcCoy. Michael, Valentino, and Daniel J, \"Web-based video for\nreal-time monitoring of radiological procedures\", IEEE Transactions on\nInformation Technology in Biomedicine, vol. 4, no. 2, pp. 108-115, Jun,\n2000", "Girao. P. Silva, Pereira. J.M. Dias, Ramos. Helena, and Postolache. O,\n\"Wireless water quality monitoring system based on field point\ntechnology and kohonen maps\", in Canadian Conference on Electrical\nand Computer Engineering, vol. 3, 2003, pp. 1873-1876\n[10] Egea-Lopez. Esteban, Martinez-Sala. Alejandro, Vales-Alonso. Javier,\nGarcia-Haro. Joan, and Malgosa-Sanahuja. Josemaria, \"Wireless\ncommunications deployment in industry: a review of issues, options and\ntechnologies\", Computers in Industry, vol. 56, no. 1, pp.29-53, Jan. 2005\n[11] Chronis. George Th., Poulos. Seraphim, and Soukissian. Takvor H,\n\"POSEIDON: Marine environmental, monitoring, forecasting and\ninformation system for Greek waters\", Oceans Conference Record\n(IEEE), vol. 3, pp.1529-1530, 1998\n[12] Wu. Zhengzhong, Zhong. Xianxin, Yu. Wenge, and Li. Xiaoyi,\n\"Real-time wireless sensor networks for civil structure safety\nmonitoring\", in Progress in Safety Science and Technology Volume\n4:Proceedings of the 2004 International Symposium on Safety Science\nand Technology, n PART B, Progress in Safety Science and Technology\nVolume 4: Proceedings of the 2004 International Symposium on Safety\nScience and Technology, 2004, pp. 2194-2199\n[13] Bonastre. A, Ors. R, Capella. J.V, Fabra. M.J, and Peris. M, \"In-line\nchemical analysis of wastewater: present and future trends\", TrAC -\nTrends in Analytical Chemistry, vol. 24, no. 2, pp.128-137, Feb. 2005\n[14] Al-Ali, Abdul-Rahman, Khaliq. Abdul, and Arshad. Muhammad,\n\"GSM-based distribution transformer monitoring system\", in\nProceedings of the Mediterranean Electrotechnical Conference -\nMELECON, v3, Proceedings of the 12th IEEE Mediterranean\nElectrotechnical Conference, MELECON 2004, 2004, pp. 999-1002\n[15] Jurkovic. Gpran and Zagar. Mario, \"GSM wireless solutions in distributed\nembedded systems designed for automatic control\", in Proceedings Elmar\n- International Symposium Electronics in Marine, Proceedings\nElmar-2004 - 46th International Symposium Electronics in Marine, 2004,\npp. 205-210\n[16] Chen. J.-F, Lin. W.Ch, Chung. C.M, Tsai. K.H, Chang. C.H, and Hu.\nW.Ch, \"Distributed monitoring architecture for movable objects over the\nGSM system\", in Proceedings of SPIE - The International Society for\nOptical Engineering, vol. 4311, 2001, pp. 301-310\n[17] Lloyd. Glynn, Everall. Lorna, Sugden. Kate, and Bennion. Ian, \"A\nhigh-performance miniaturized time division multiplexed sensor system\nfor remote structural health monitoring\", in Proceedings of SPIE - The\nInternational Society for Optical Engineering, vol. 5459, Optical Sensing,\n2004, pp. 145-156\n[18] Elouardi. N, Steuer. J, Radimirsch. M, Fette. H, and Jobmann. K,\n\"Proactive dynamic resource distribution based on borrowing and control\nengineering methods for GSM-like systems\", in IEEE International\nSymposium on Personal, Indoor and Mobile Radio Communications,\nPIMRC, vol. 2, 2000, pp. 1348-1352\n[19] Peersman. Guillaume, Cvetkovic. Srba, Griffiths. Paul, and Spear. Hugh,\n\"Global system for mobile communications short message service\", IEEE\nPersonal Communications, vol. 7, no. 3, pp. 15-23, Jun. 2000\n[20] M.Rahnema, \"Overview of the GSM system and protocol architecture\".\nIEEE Comm. 31(3), pp. 92--100, Apr. 1993\n[21] Lee. Jin-Shyan and Hsu. Pau-Lo, \"Design of remote environmental\nmonitoring systems\", in IEEE Conference on Control Applications -\nProceedings, vol. 2, 2002, pp. 856-861\n[22] Zappala. G., \"A software set for environment monitoring networks\",\nEnvironmental Studies, vol. 11, Development and Application of\nComputer Techniques to Environmental Studies X, pp. 3-12, 2004\n[23] Chen. Yih-Fan, Wu. Wen-Jong, Chen. Chun-Kuang, Wen. Chih-Min, Jin.\nMing-Hui, Gau. Chung-Yun, Chang. Chih-Chie, and Lee. Chih-Kung,\n\"Design and implementation of smart sensor nodes for wireless disaster\nmonitoring systems\", in Proceedings of SPIE - The International Society\nfor Optical Engineering, vol. 5391, Smart Structures and Materials 2004\n- Sensors and Smart Structures Technologies for Civil, Mechanical, and\nAerospace Systems, 2004, pp. 798-805\n[24] Steere. David C, Baptista. Antonio, McNamee. Dylan, Pu. Calton, and\nWalpole. Jonathan, \"Research challenges in environmental observation\nand forecasting systems\", in Proceedings of the Annual International\nConference on Mobile Computing and Networking, MOBICOM, 2000,\npp. 292-299\n[25] Haung. Yieh-Ran, Ho.Jan-Ming, \"Overload control for short message\ntransfer in GPRS/UMTS networks\", Information Sciences, vol. 170, no.\n2-4, pp. 235-249, Feb. 2005\n[26] Ozkul, Tarik and Al Homoud.A, \"Communication protocol for\nmonitoring a large number of remotely distributed hazardous material\ndetection devices\", Computer Standards and Interfaces, vol. 25, no. 5, pp.\n553-561, September. 2003\n[27] Prieto. Alberto Gonzalez, Cosenza. Roberte, Stadier. Rolf, \"Policy-based\ncongestion management for an sms gateway\", in Proceedings - Fifth IEEE\nInternational Workshop on Policies for Distributed Systems and\nNetworks, POLICY 2004, 2004, pp. 215-218\n[28] Barone. Fabrizio, De Rosa. Rosario, Milano. Leopoldo, and Kipiani.\nKetevan, \"A distributed multiprotocol acquisition network for\nenvironmental data\", in Proceedings of SPIE - The International Society\nfor Optical Engineering, vol. 4886, 2002, pp. 605-613\n[29] Friday. A, Davies. N, Blair. G.S, and Cheverst. K.W.J, \"Developing\nadaptive applications: The most experience\", Integrated Computer-Aided\nEngineering, vol. 6, no. 2, p143-157, 1999\n[30] Elouardi. N, Steuer. J, Radimirsch. M, Fette. H, and Jobmann. K,\n\"Proactive dynamic resource distribution based on borrowing and control\nengineering methods for GSM-like systems\", in IEEE International\nSymposium on Personal, Indoor and Mobile Radio Communications,\nPIMRC, vol. 2, 2000, pp. 1348-1352\n[31] European digital cellular telecommunication systems (phase 2+),\ntechnical realisation of the short message service (SMS), point-to-point,\nGSM, ETSI (European Telecommunications Standards Institute), 03.40\nversion 7.1.0, Release 1998\n[32] Al-Begain. K, Awan. I, and Kouvatos. D.D, \"Analysis of GMS/GPRS cell\nwith multiple data service classes\", Wireless Personal Communications,\nvol. 25, no. 1, pp.41-57, April. 2003"]}
format Text
author Xin, Sui
Chunsheng, Li
Di, Tian
author_facet Xin, Sui
Chunsheng, Li
Di, Tian
author_sort Xin, Sui
title Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems
title_short Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems
title_full Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems
title_fullStr Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems
title_full_unstemmed Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems
title_sort data transmission reliability in short message integrated distributed monitoring systems
publisher Zenodo
publishDate 2007
url https://dx.doi.org/10.5281/zenodo.1076561
https://zenodo.org/record/1076561
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genre Arctic
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op_relation https://dx.doi.org/10.5281/zenodo.1076562
op_rights Open Access
Creative Commons Attribution 4.0
https://creativecommons.org/licenses/by/4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.1076561
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spelling ftdatacite:10.5281/zenodo.1076561 2023-05-15T15:20:57+02:00 Data Transmission Reliability In Short Message Integrated Distributed Monitoring Systems Xin, Sui Chunsheng, Li Di, Tian 2007 https://dx.doi.org/10.5281/zenodo.1076561 https://zenodo.org/record/1076561 en eng Zenodo https://dx.doi.org/10.5281/zenodo.1076562 Open Access Creative Commons Attribution 4.0 https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess CC-BY Delay SMS reliability distributed monitoringsystem DMS wireless communication. Text Journal article article-journal ScholarlyArticle 2007 ftdatacite https://doi.org/10.5281/zenodo.1076561 https://doi.org/10.5281/zenodo.1076562 2021-11-05T12:55:41Z Short message integrated distributed monitoring systems (SM-DMS) are growing rapidly in wireless communication applications in various areas, such as electromagnetic field (EMF) management, wastewater monitoring, and air pollution supervision, etc. However, delay in short messages often makes the data embedded in SM-DMS transmit unreliably. Moreover, there are few regulations dealing with this problem in SMS transmission protocols. In this study, based on the analysis of the command and data requirements in the SM-DMS, we developed a processing model for the control center to solve the delay problem in data transmission. Three components of the model: the data transmission protocol, the receiving buffer pool method, and the timer mechanism were described in detail. Discussions on adjusting the threshold parameter in the timer mechanism were presented for the adaptive performance during the runtime of the SM-DMS. This model optimized the data transmission reliability in SM-DMS, and provided a supplement to the data transmission reliability protocols at the application level. : {"references": ["W. Stallings, Local and metropolitan area networks, 4th Edition,\nMacmillan Publishing Company, 1993", "Jia. Hong-Yu, Zhao. Jun-Feng, and Xiaoxing Weixing, \"Principle and\ndesign of the short message service platform\", Jisuanji\nXitong/Mini-Micro Systems, vol. 24, no.5, pp. 819, May. 2003", "Yan. Xu, \"Mobile data communications in China\", Communications of\nthe ACM, v46, no.12, pp. 80-85, Dec. 2003", "Ribeiro. Joao Araujo, De Farias. Oscar Luis Monteiro, and Roque. Luiz\nAlberto Oliveira Lima, \"A framework for environmental monitoring\ninformation systems\", in International Geoscience and Remote Sensing\nSymposium (IGARSS), v6, 2004 IEEE International Geoscience and\nRemote Sensing Symposium Proceedings: Science for Society: Exploring\nand Managing a Changing Planet. IGARSS 2004, 2004, pp. 3603-3606", "Jin. Wei-Liang, Shao. Jian-Wen, and Zhang. En-Yong, \"Basic strategy of\nhealth monitoring on submarine pipeline by distributed optical fiber\nsensor\", in Proceedings of the International Conference on Offshore\nMechanics and Arctic Engineering - OMAE, vol. 2, 2003, pp. 531-536", "Bucci.G, Fiorucci. E, and Landi. C, \"Digital measurement station for\npower quality analysis in distributed environments\", in Conference\nRecord - IEEE Instrumentation and Measurement Technology\nConference, vol. 1, 2001, pp. 368-373", "De Capua. C, Morello. R, and Pasquino. N, \"A mobile distributed\narchitecture for measurement and analysis of the electromagnetic field\",\nin Conference Record - IEEE Instrumentation and Measurement\nTechnology Conference, vol. 3, Proceedings of the 21st IEEE\nInstrumentation and Measurement Technology Conference, IMTC/04,\n2004, pp. 2090-2094", "Ratib. Osman, Dahlbom. Maggie, Zucek. Jamie M, Kong. Kinchi,\nMcCoy. Michael, Valentino, and Daniel J, \"Web-based video for\nreal-time monitoring of radiological procedures\", IEEE Transactions on\nInformation Technology in Biomedicine, vol. 4, no. 2, pp. 108-115, Jun,\n2000", "Girao. P. Silva, Pereira. J.M. Dias, Ramos. Helena, and Postolache. O,\n\"Wireless water quality monitoring system based on field point\ntechnology and kohonen maps\", in Canadian Conference on Electrical\nand Computer Engineering, vol. 3, 2003, pp. 1873-1876\n[10] Egea-Lopez. Esteban, Martinez-Sala. Alejandro, Vales-Alonso. Javier,\nGarcia-Haro. Joan, and Malgosa-Sanahuja. Josemaria, \"Wireless\ncommunications deployment in industry: a review of issues, options and\ntechnologies\", Computers in Industry, vol. 56, no. 1, pp.29-53, Jan. 2005\n[11] Chronis. George Th., Poulos. Seraphim, and Soukissian. Takvor H,\n\"POSEIDON: Marine environmental, monitoring, forecasting and\ninformation system for Greek waters\", Oceans Conference Record\n(IEEE), vol. 3, pp.1529-1530, 1998\n[12] Wu. Zhengzhong, Zhong. Xianxin, Yu. Wenge, and Li. Xiaoyi,\n\"Real-time wireless sensor networks for civil structure safety\nmonitoring\", in Progress in Safety Science and Technology Volume\n4:Proceedings of the 2004 International Symposium on Safety Science\nand Technology, n PART B, Progress in Safety Science and Technology\nVolume 4: Proceedings of the 2004 International Symposium on Safety\nScience and Technology, 2004, pp. 2194-2199\n[13] Bonastre. A, Ors. R, Capella. J.V, Fabra. M.J, and Peris. M, \"In-line\nchemical analysis of wastewater: present and future trends\", TrAC -\nTrends in Analytical Chemistry, vol. 24, no. 2, pp.128-137, Feb. 2005\n[14] Al-Ali, Abdul-Rahman, Khaliq. Abdul, and Arshad. Muhammad,\n\"GSM-based distribution transformer monitoring system\", in\nProceedings of the Mediterranean Electrotechnical Conference -\nMELECON, v3, Proceedings of the 12th IEEE Mediterranean\nElectrotechnical Conference, MELECON 2004, 2004, pp. 999-1002\n[15] Jurkovic. Gpran and Zagar. Mario, \"GSM wireless solutions in distributed\nembedded systems designed for automatic control\", in Proceedings Elmar\n- International Symposium Electronics in Marine, Proceedings\nElmar-2004 - 46th International Symposium Electronics in Marine, 2004,\npp. 205-210\n[16] Chen. J.-F, Lin. W.Ch, Chung. C.M, Tsai. K.H, Chang. C.H, and Hu.\nW.Ch, \"Distributed monitoring architecture for movable objects over the\nGSM system\", in Proceedings of SPIE - The International Society for\nOptical Engineering, vol. 4311, 2001, pp. 301-310\n[17] Lloyd. Glynn, Everall. Lorna, Sugden. Kate, and Bennion. Ian, \"A\nhigh-performance miniaturized time division multiplexed sensor system\nfor remote structural health monitoring\", in Proceedings of SPIE - The\nInternational Society for Optical Engineering, vol. 5459, Optical Sensing,\n2004, pp. 145-156\n[18] Elouardi. N, Steuer. J, Radimirsch. M, Fette. H, and Jobmann. K,\n\"Proactive dynamic resource distribution based on borrowing and control\nengineering methods for GSM-like systems\", in IEEE International\nSymposium on Personal, Indoor and Mobile Radio Communications,\nPIMRC, vol. 2, 2000, pp. 1348-1352\n[19] Peersman. Guillaume, Cvetkovic. Srba, Griffiths. Paul, and Spear. Hugh,\n\"Global system for mobile communications short message service\", IEEE\nPersonal Communications, vol. 7, no. 3, pp. 15-23, Jun. 2000\n[20] M.Rahnema, \"Overview of the GSM system and protocol architecture\".\nIEEE Comm. 31(3), pp. 92--100, Apr. 1993\n[21] Lee. Jin-Shyan and Hsu. Pau-Lo, \"Design of remote environmental\nmonitoring systems\", in IEEE Conference on Control Applications -\nProceedings, vol. 2, 2002, pp. 856-861\n[22] Zappala. G., \"A software set for environment monitoring networks\",\nEnvironmental Studies, vol. 11, Development and Application of\nComputer Techniques to Environmental Studies X, pp. 3-12, 2004\n[23] Chen. Yih-Fan, Wu. Wen-Jong, Chen. Chun-Kuang, Wen. Chih-Min, Jin.\nMing-Hui, Gau. Chung-Yun, Chang. Chih-Chie, and Lee. Chih-Kung,\n\"Design and implementation of smart sensor nodes for wireless disaster\nmonitoring systems\", in Proceedings of SPIE - The International Society\nfor Optical Engineering, vol. 5391, Smart Structures and Materials 2004\n- Sensors and Smart Structures Technologies for Civil, Mechanical, and\nAerospace Systems, 2004, pp. 798-805\n[24] Steere. David C, Baptista. Antonio, McNamee. Dylan, Pu. Calton, and\nWalpole. Jonathan, \"Research challenges in environmental observation\nand forecasting systems\", in Proceedings of the Annual International\nConference on Mobile Computing and Networking, MOBICOM, 2000,\npp. 292-299\n[25] Haung. Yieh-Ran, Ho.Jan-Ming, \"Overload control for short message\ntransfer in GPRS/UMTS networks\", Information Sciences, vol. 170, no.\n2-4, pp. 235-249, Feb. 2005\n[26] Ozkul, Tarik and Al Homoud.A, \"Communication protocol for\nmonitoring a large number of remotely distributed hazardous material\ndetection devices\", Computer Standards and Interfaces, vol. 25, no. 5, pp.\n553-561, September. 2003\n[27] Prieto. Alberto Gonzalez, Cosenza. Roberte, Stadier. Rolf, \"Policy-based\ncongestion management for an sms gateway\", in Proceedings - Fifth IEEE\nInternational Workshop on Policies for Distributed Systems and\nNetworks, POLICY 2004, 2004, pp. 215-218\n[28] Barone. Fabrizio, De Rosa. Rosario, Milano. Leopoldo, and Kipiani.\nKetevan, \"A distributed multiprotocol acquisition network for\nenvironmental data\", in Proceedings of SPIE - The International Society\nfor Optical Engineering, vol. 4886, 2002, pp. 605-613\n[29] Friday. A, Davies. N, Blair. G.S, and Cheverst. K.W.J, \"Developing\nadaptive applications: The most experience\", Integrated Computer-Aided\nEngineering, vol. 6, no. 2, p143-157, 1999\n[30] Elouardi. N, Steuer. J, Radimirsch. M, Fette. H, and Jobmann. K,\n\"Proactive dynamic resource distribution based on borrowing and control\nengineering methods for GSM-like systems\", in IEEE International\nSymposium on Personal, Indoor and Mobile Radio Communications,\nPIMRC, vol. 2, 2000, pp. 1348-1352\n[31] European digital cellular telecommunication systems (phase 2+),\ntechnical realisation of the short message service (SMS), point-to-point,\nGSM, ETSI (European Telecommunications Standards Institute), 03.40\nversion 7.1.0, Release 1998\n[32] Al-Begain. K, Awan. I, and Kouvatos. D.D, \"Analysis of GMS/GPRS cell\nwith multiple data service classes\", Wireless Personal Communications,\nvol. 25, no. 1, pp.41-57, April. 2003"]} Text Arctic DataCite Metadata Store (German National Library of Science and Technology) Arctic Blair ENVELOPE(160.817,160.817,-72.533,-72.533) Gonzalez ENVELOPE(-58.250,-58.250,-63.917,-63.917) Guillaume ENVELOPE(70.150,70.150,-49.350,-49.350) Haro ENVELOPE(-59.783,-59.783,-62.533,-62.533) Kung ENVELOPE(-132.571,-132.571,54.050,54.050) Lopez ENVELOPE(-63.567,-63.567,-64.850,-64.850) Lorna ENVELOPE(62.789,62.789,-67.787,-67.787) Prieto ENVELOPE(-62.000,-62.000,-64.683,-64.683) Ramos ENVELOPE(-59.700,-59.700,-62.500,-62.500) Rosario ENVELOPE(-67.967,-67.967,-67.450,-67.450) Steere ENVELOPE(-117.817,-117.817,-76.733,-76.733)

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