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Комплект нашивок РПА Минюста г.Москва на китель
Китель является частью повседневной и выходной формы одежды сотрудников полиции нового образца. Носится с брюками. Материал: Костюмная (полушерстяная) ткань. Состав: 75% шерсть , 25% полиэстер 280 г/м2 Подклад: Саржа 100% вискоза 105% г/м2. Прилегающего кроя, однобортный, застегивающийся на четыре пуговицы . Воротник отложной с лацканами. Полочки с отрезными бочками. Боковые карманы горизонтальные прорезные в «рамку» с клапанами. Спинка с центральным швом, в нижней части которого расположена шлица. Рукава втачные, двухшовные. Китель с подкладом. На левой полочке подклада расположен внутренний карман с «листочкой». Предназначен для сотрудников органов внутренних дел, имеющих специальные звания полиции , а также для курсантов (слушателей) образовательных учреждении высшего профессионального образования МВД России. Имеет красную окантовку на рукавах. Согласно приказу МВД России № 575, шевроны пришиваются на рукава костюма на расстоянии 8 см от края плеча. На левый рукав пришивается шеврон обозначающий принадлежность к МВД России, а на правый – шеврон , обозначающий службу сотрудника полиции . Можно дополнить шевроны липучками. Кроме того, на данный китель нашиваются погоны с пуговицами, а также укрепляются две петличные эмблемы. Как пришить погон? Для этого, кроме самого кителя и погон , понадобятся линейка, ножницы, игла, наперсток и прочные нитки красного цвета. Обязательно наденьте наперсток, даже если вы привыкли шить без него, так как иногда сквозь погоны игла проходит с большим трудом, и можно поранить пальцы. Если затрудняетесь вытягивать иглу с ниткой из погона, то можно воспользоваться плоскогубцами или пинцетом. 1) Прежде всего, подготовьте погон, т.е. закрепите на нем все положенные знаки различия , так как сделать это на уже пришитом погоне будет гораздо труднее. 2) Берете погон и располагаете его так, чтобы сторона, удаленная от пуговицы , была в упор к шву, который соединяет плечо кителя с рукавом. В то же время, верхний, направленный в сторону спины, край погона должен на 1 см заходить сверху на шов, проходящий вдоль плеча. Другими словами, погон должен быть немного смещен вперед. 3) Вденьте в иголку нитку и закрепите погон к кителю в трех точках: по углам погона, у места, где он соприкасается с рукавным швом и в центре полукруглого среза. Теперь погон будет надежно закреплен и не сместится от правильного положения в процессе пришивания. 4) Затем очень осторожно пришиваем погон по периметру, делая стежки таким образом, чтобы на его поверхности оставались только едва видимые точки в тех местах, где игла входит в погон, а нитка между двумя соседними отверстиями проходила преимущественно с изнаночной стороны (по прокладке) кителя. Тогда нитку не будет заметно даже если она по цвету не совсем соответствует цвету погон . При этом оптимальная длина каждого стежка должна быть около 1 см. 5) Со вторым погоном действуйте по той же схеме. Как укрепить петличные эмблемы? На воротнике кителя - по биссектрисе (линии, делящей угол воротника пополам), на расстоянии 25 мм от угла воротника до центра эмблемы, вертикальная ось симметрии эмблемы должна быть параллельна отлету воротника. Как разместить награды на кителе полиции? На левой стороне груди награды располагаются в следующем порядке: Знаки особого отличия располагаются так, чтобы верхний край колодки медали был на уровне уступа лацкана кителя и жакета. При ношении двух и более знаков особого отличия они располагаются раздельно в один ряд, справа налево с промежутками в 10 мм между боковыми концами звезд в перечисленном порядке. Знаки особого отличия одного наименования располагаются в порядке их награждения. Знаки орденов, ордена

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store.academic2.ru › Strumica: analogindex — LiveJournal

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14:00 23.08.2020 store.academic2.ru › StrumicaJesse Eugene Russell (b April 26, 1948) is an African-American inventor and one of the visionaries’ whose innovative perspectives profoundly influenced the wireless communications industry, the driver of growth in 21st century. Trained as an electrical engineer at Tennessee State University and Stanford University, and recognized globally as a thought-leader, technology expert and inventor in the field of wireless communication for over 20 years, Russell has played a major role in shaping the wireless communications industry direction through his visionary leadership and innovative perspectives for standards, technologies as well as innovative new wireless service concepts.

He holds numerous patents[6] and continues to invent and innovate in the emerging area of next generation broadband wireless networks, technologies and services, which is frequently referred to as 4G. Russell was inducted into the United States’ National Academy of Engineering[7] during the Clinton Administration for his innovative contribution to the field of Wireless Communication. He pioneered the field of digital cellular[8] communication in the 80s through the use of high power linear amplification and low bit rate voice encoding technologies and received a patent in 1992 (US patent # 5,084,869) for his work in the area of digital cellular base station design.

Russell is currently Chairman and CEO of incNETWORKS,Inc.[9] a New Jersey, USA based Broadband Wireless Communications Company focused on 4th Generation (4G) Broadband Wireless Communications Technologies, Networks and Services. Early life and educationJesse Eugene Russell was born April 26, 1948 in Hickville, Tennessee in the United States of America into a large African-American family with eight brothers and two sisters. He is the son of Charles Albert Russell and Mary Louise Russell. His early childhood was spent in economically and socially challenged neighborhoods within the inner-city of Nashville. During his early years, he focused on athletics and not academics. A key turning point in Russell’s life was the opportunity to attend a summer educational program at Fisk University[10] in Nashville, Tennessee. Russell participated in this educational opportunity and began his academic and intellectual pursuits. Russell continued his education at Tennessee State University Tennessee State University[11] where he focused on electrical engineering. A Bachelor of Science Degree (BSEE) in Electrical Engineering was conferred in 1972 from Tennessee State University. As a top honor student in the School of Engineering, Russell became the first African American to be hired directly from a Historically Black Colleges and Universities (HBCUs)[12] by AT&T Bell Laboratories[13] and subsequently became the first African-American in the United States to be selected as the Eta Kappa Nu Outstanding Young Electrical Engineer of the Year in 1980[14]. Russell continued his academic pursuits and obtained his Master of Electrical Engineering (MSEE) degree from Stanford University[15] in Palo Alto, California, in 1973. Innovations & PatentsRussell’s innovations in wireless communication systems, architectures and technology related to radio access networks, end user devices and in-building wireless communication systems has fundamentally changed the wireless communication industry. Known for his patented invention of the digital cellular base station, that enabled new digital services for cellular mobile users, Russell continues to innovate in the emerging next generation broadband wireless communication technologies, products, networks, and services as well as “Mobile Cloud Computing” which are shaping the forefront of[...]

the 4G Communication Industry.

Over 100 patents[16] granted or in process, thirty years of experience in Research and Development at prominent institutions, and pioneering technologies such as the invention of the first digital cellular base station and fiber optic microcell utilizing high power linear amplifier technology and digital modulation techniques, which laid the foundation for the digital cellular evolution, digital cellular standards, personal communications networks as well as the emergence of “Mobile Cloud Computing” within 4G broadband wireless networks. These are only some of the inventions that have forged new directions for the wireless communication industry. Listed below are a few significant patents.
Patent No. Description 7,437,158 Advanced multi-network client device for wideband multimedia access to private and public wireless networks 7,120,139 Broadband cable telephony network architecture IP ITN network architecture reference model 5,724,665 Wireless communication base station 5,655,003 Wireless terminal having digital radio processing with automatic communication system selection capability 5,608,780 Wireless communication system having base units which extracts channel and setup information from nearby base units 5,257,397 Mobile data telephone 5,084,869 Base station for mobile radio telecommunications systems Professional AccomplishmentsJesse is currently building the first Broadband Wireless Communications Network focused on 4th Generation Hybrid Fiber-Wireless Communications Networks and Technologies that is fully compliant with International Telecommunications Union (ITU) standards. Russell continues to innovate and invent new wireless communications technology solutions as the Chief Executive Officer of incNETWORKS which designs, sells, and manages privately owned broadband wireless communications’ equipment and networks for emerging broadband cellular applications based on Software Defined Radio and Cognitive Radio techniques. Offering broadband wireless communications solutions to small and mid-size business customers, incNETWORKS is one of the emerging technology leaders in the development of MicroLTE product platforms for 4G.

Russell joined Bell Labs as a Member of the Technical Staff. He was one of the first designers to embrace the use of microprocessor in the design of equipment for use in the telecommunication network for monitoring and tracking calling patterns within the Bell System Network. The system was referred to as the traffic data collection systems, which using a microprocessor-based portable data terminals for interfacing to electro-mechanical switching systems.

Russell's career, and knowledge in wireless technology and standards advanced, while he served in numerous positions; Director of the AT&T Cellular Telecommunication Laboratory (Bell Labs), Vice President of Advanced Wireless Technology Laboratory (Bell Labs), Chief Technical Officer for the Network Wireless Systems Business Unit (Bell Labs), Chief Wireless Architect of AT&T, and Vice President of Advanced Communications Technologies for AT&T Laboratories (formerly a part of Bell Labs).

As the Director of the AT&T Cellular Telecommunication Laboratory (Bell Labs), this Bell Labs Group formally managed by Russell is credited with the invention of cellular radio technology and received the United States' Medal of Technology for the invention.

Russell continued to develop his expertise as he established and lead an Innovation Center focused on Applied Research in Advanced Communication Technologies that enabling AT&T to extend its existing portfolio of services and expand into new businesses and markets. As a key decision maker in the selection and development of emerging communications technologies, Russell’s efforts lead to the rapid realization of new access network platforms that enable AT&T to expand it’s broadband communication network options (i.e., Specialization: Cable Access Ne[...]

tworks, DSL Access Networks, Power-line Carrier Access Networks, Fixed Wireless Access Networks, Satellite Access Networks and Broadband Wireless Communications Networks). The applications of these access technologies were one of the keys in expanding AT&T's interest in re-building it local access services business. Acknowledgements1. Elected as IEC Fellow for contributions in the development of Broadband Communications Access Technologies into the International Engineering Consortium (IEC), 1999
2. Inductee into the National Academy of Engineering (NAE) for the development of and contributions to digital cellular communications, 1995
3. Elected to IEEE Fellow grade for technical leadership in the development of digital wireless communication concepts, technology, systems and standards, 1994
4. US Black Engineer of the Year for best Technical Contributions in Digital Cellular and Microcellular Technology, 1992, US Black Engineer Magazine
5. America's New Leadership Class Award 1985, Esquire Magazine
6. Outstanding Service Award 1983, Eta Kappa Nu
7. Outstanding Scientist Award 1982, National Society of Black Engineers[17]
8. Eta Kappa Nu Outstanding Young Electrical Engineer of the Year, 1980
9. Scientist of the Year Award 1980, National Technical Associations Inc Professional Memberships & Affiliations1. Board of Directors Advisor, Telecommunications Industry Association (TIA)
2. Board of Governors, IEEE Vehicular Technology Society
3. Chairman of the Board, Electromagnetic Energy Association (EEA, Third term)
4. Chairman, Mobile & Personal Communications Division of TIA
5. Chairman, Telecommunication Industry Association (TIA) -Wireless Communication Standards Organization
6. Fellow member of the Institute of Electrical and Electronics Engineers, Inc (IEEE)
7. Fellow member of the International Engineering Consortium (IEC)
8. Inducted Member of the National Academy of Engineering
9. Member of the Technological Advisory Council (TAC), U.S. Federal Communications Commission (FCC)
10. Member of Eta Kappa Nu[18] Honor Society
11. Member of International Regulatory and Standards Committee on Third Generation Wireless Communications Systems
12. Member of the Congressional Subcommittee on Technology Member, National Academy of Engineering (NAE), Electronic Engineering Section and Computer Science & Engineering Section
13. Member of the Information & Technology Council of the American Management Association
14. Member of the National Academy of Engineering
15. Member Phi Kappa Phi[19] Honor Society
16. Member Tau Beta Pi[20] Honor Society
17. Past Chairman, Telecommunications Industry Association (TIA) Cellular Radio and Common Carrier Section (1987–1992)
18. Technical Program Chairman, 38th IEEE Vehicular Technology Conference, Philadelphia
19. Technical Program Chairman, 43rd IEEE Vehicular Technology Conference, Secaucus
20. Testified before Judge Green on Bell System Divesture Publications* Universal Personal Communications: Emergence of a Paradigm Shift in the Communications Industry, International J. of Wireless information Networks, Vol.1, No. 3, 1994. This paper examines a major paradigm shift in the communications industry across four dimensions, analyzes the factors influencing the shift, articulates a vision of universal personal communications under the new paradigm and presents several service environment and transmission hierarchy models supporting the vision.
* The US Evolution towards Personal Communications in the '90s, (with A. T. Kripalani), Proc. Pan European Digital Cellular Radio Conference, Rome, Italy, 1990. This paper proposes and describes a set of strategic technology platforms to assist the migration of the existing US cellular network to an all digital personal communications network. Web Link[21]
* "AT&T Next Generation Digital Cellular Base Station Technology", (with R. W. Henn and R. S. Kerby), Proc. International Switching Symposium, Stock[...]

holm, Sweden, 1990. This paper describes the first all digital cellular base station system utilizing linear radio technology to support multiple radio air interface methods such read more at Generated feed Adblock test (Why?)