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Modern Communication Systems

Self-paced videos, Lifetime access, Study material, Certification prep, Technical support, Course Completion Certificate

Uplatz

Summary

Price
£12 inc VAT
Study method
Online, On Demand What's this?
Duration
46.5 hours · Self-paced
Qualification
No formal qualification
Certificates
  • Reed Courses Certificate of Completion - Free
  • Uplatz Certificate of Completion - Free

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Overview

Uplatz offers comprehensive training on Modern Communication Systems. This is online video-based training course. You will be awarded Course Completion Certificate at the end of the course.

Modern communication systems encompass a wide range of technologies and methods for transmitting information and data between individuals, devices, and systems. These systems have evolved significantly in recent years, driven by advances in technology. Here are some key components and features of modern communication systems:

  1. Wireless Communication: Wireless technologies, such as cellular networks (3G, 4G, 5G), Wi-Fi, and Bluetooth, have become ubiquitous for connecting devices and people. They enable high-speed data transmission and mobility.

  2. Internet: The internet is a fundamental part of modern communication. It allows for global connectivity, enabling people to communicate, share information, and access resources from anywhere in the world.

  3. VoIP (Voice over Internet Protocol): VoIP technology allows voice communication over the internet, offering cost-effective and feature-rich alternatives to traditional landline telephony.

  4. Social Media: Platforms like Facebook, Twitter, Instagram, and LinkedIn provide interactive and real-time communication. They have become essential for personal and professional networking, as well as information sharing.

  5. Messaging Apps: Apps like WhatsApp, Telegram, and WeChat provide instant text, voice, and video messaging. They often offer end-to-end encryption for secure communication.

  6. Email: Email remains a widely used method of communication, both for personal and professional purposes. Modern email systems support large attachments, real-time synchronization, and advanced spam filtering.

  7. Video Conferencing: Services like Zoom, Microsoft Teams, and Google Meet enable real-time video and audio communication, facilitating remote collaboration and virtual meetings.

  8. Unified Communications: Unified communication platforms integrate various communication tools like email, voice, video, and messaging into a single interface, improving efficiency and collaboration in business settings.

  9. Cloud-Based Communication: Many communication systems are now hosted in the cloud, making them accessible from anywhere with an internet connection. This simplifies maintenance, scalability, and accessibility.

  10. IoT (Internet of Things): IoT devices communicate with each other and central systems to share data. This technology is crucial for smart homes, smart cities, and industrial applications.

  11. Satellite Communication: Satellites play a crucial role in global communication, providing connectivity in remote or inaccessible areas.

  12. Blockchain: Distributed ledger technology, like blockchain, can be used for secure and transparent communication and data transfer.

  13. 5G Technology: 5G networks offer high-speed, low-latency communication, enabling new applications such as augmented reality, autonomous vehicles, and more.

  14. Artificial Intelligence (AI): AI is increasingly integrated into communication systems to enhance chatbots, automate customer support, and improve personalization.

  15. Cybersecurity: As communication systems become more sophisticated, the need for robust cybersecurity measures to protect data and privacy becomes more critical.

  16. Smart Devices: Smartphones, tablets, smartwatches, and other connected devices are central to modern communication, serving as personal hubs for various communication applications.

  17. Remote Work and E-Learning: Recent global events have accelerated the adoption of remote work and e-learning, relying on digital communication tools to facilitate collaboration and education.

  18. Voice Assistants: Virtual voice assistants like Siri, Alexa, and Google Assistant provide hands-free communication and control over various connected devices.

Modern communication systems continue to evolve, driven by advances in technology and changing societal needs. They enable people and organizations to connect, share information, and collaborate more efficiently than ever before.

Curriculum

1
section
96
lectures
46h 31m
total

    • 1: Evolution of Wireless Communication - part 1 16:29
    • 2: Evolution of Wireless Communication - part 2 18:21
    • 3: Wireless Spectrum and its Implications in 5G - part 1 16:16
    • 4: Wireless Spectrum and its Implications in 5G - part 2 18:50
    • 5: Wireless Spectrum and its Implications in 5G - part 3 13:24
    • 6: Wireless Technology - 5G and Beyond - part 1 17:25
    • 7: Wireless Technology - 5G and Beyond - part 2 27:26
    • 8: Practical - 2G - 3G - 4G - part 1 37:21
    • 9: Practical - 2G - 3G - 4G - part 2 31:00
    • 10: Practical - 2G - 3G - 4G - part 3 23:14
    • 11: Practical - 2G - 3G - 4G - part 4 23:32
    • 12: Practical - 2G - 3G - 4G - part 5 16:53
    • 13: Introduction to HSPDA 16:38
    • 14: Modulation and Antenna Systems 25:05
    • 15: Introduction to 4G LTE - part 1 16:49
    • 16: Introduction to 4G LTE - part 2 17:38
    • 17: Introduction to 4G LTE - part 3 21:21
    • 18: Cognitive Radio Networks (CRN) - part 1 13:47
    • 19: Cognitive Radio Networks (CRN) - part 2 18:01
    • 20: Cognitive Radio Networks (CRN) - part 3 16:29
    • 21: Cognitive Radio Networks (CRN) - part 4 03:48
    • 22: Indoor Radio Planning - part 1 25:59
    • 23: Indoor Radio Planning - part 2 23:23
    • 24: Indoor Radio Planning - part 3 17:46
    • 25: Distributed Antenna Systems - part 1 21:26
    • 26: Distributed Antenna Systems - part 2 30:20
    • 27: Distributed Antenna Systems - part 3 30:03
    • 28: Distributed Antenna Systems - part 4 28:46
    • 29: Distributed Antenna Systems - part 5 33:11
    • 30: Distributed Antenna Systems - part 6 31:07
    • 31: Designing Indoor DAS Solutions - part 1 26:53
    • 32: Designing Indoor DAS Solutions - part 2 41:57
    • 33: Designing Indoor DAS Solutions - part 3 27:02
    • 34: Designing Indoor DAS Solutions - part 4 33:31
    • 35: Designing Indoor DAS Solutions - part 5 17:52
    • 36: Designing Indoor DAS Solutions - part 6 30:12
    • 37: Designing Indoor DAS Solutions - part 7 19:49
    • 38: Traffic Dimensioning - part 1 39:42
    • 39: Traffic Dimensioning - part 2 29:51
    • 40: Noise - part 1 27:20
    • 41: Noise - part 2 17:16
    • 42: Noise - part 3 26:49
    • 43: The Link Budget - part 1 44:49
    • 44: The Link Budget - part 2 16:40
    • 45: Tools for Indoor Radio Planning - part 1 28:11
    • 46: Tools for Indoor Radio Planning - part 2 13:53
    • 47: Optimizing the Radio Resource 18:27
    • 48: Tunnel Radio Planning - part 1 42:40
    • 49: Tunnel Radio Planning - part 2 34:30
    • 50: Tunnel Radio Planning - part 3 31:44
    • 51: Tunnel Radio Planning - part 4 22:25
    • 52: Covering the Indoor Users from Outdoor Network - part 1 23:54
    • 53: Covering the Indoor Users from Outdoor Network - part 2 31:50
    • 54: Small Cell Indoors - part 1 28:47
    • 55: Small Cell Indoors - part 2 17:00
    • 56: Application Examples - part 1 26:21
    • 57: Application Examples - part 2 26:31
    • 58: Application Examples - part 3 37:50
    • 59: Planning Procedure 31:07
    • 60: Mobile Network Engineering - part 1 27:58
    • 61: Mobile Network Engineering - part 2 33:38
    • 62: Mobile Network Engineering - part 3 24:40
    • 63: GSM - part 1 35:08
    • 64: GSM - part 2 33:07
    • 65: GSM - part 3 32:20
    • 66: EGPRS Preview 51:04
    • 67: Third Generation Networks - part 1 37:09
    • 68: Third Generation Networks - part 2 48:07
    • 69: Third Generation Networks - part 3 45:20
    • 70: HSPA - part 1 49:58
    • 71: HSPA - part 2 35:58
    • 72: Deep-dive into 4G LTE - part 1 42:21
    • 73: Deep-dive into 4G LTE - part 2 33:14
    • 74: Deep-dive into 4G LTE - part 3 41:53
    • 75: Deep-dive into 4G LTE - part 4 36:21
    • 76: Deep-dive into 4G LTE - part 5 30:46
    • 77: Deep-dive into 4G LTE - part 6 37:06
    • 78: LTE-A - part 1 36:14
    • 79: LTE-A - part 2 25:10
    • 80: From 5G to 6G - part 1 45:45
    • 81: From 5G to 6G - part 2 36:24
    • 82: Future of the Networks - part 1 44:53
    • 83: Future of the Networks - part 2 43:04
    • 84: Future of the Networks - part 3 57:55
    • 85: Future of the Wireless Communication with 6G 31:38
    • 86: AI and ML in 5G and 6G Era 36:32
    • 87: 6G Wireless Communication Systems - part 1 38:24
    • 88: 6G Wireless Communication Systems - part 2 36:53
    • 89: 6G Architectures, Applications and Challenges - part 1 32:57
    • 90: 6G Architectures Applications and Challenges - part 2 25:00
    • 91: Cybersecurity in Digital Transformation Era - part 1 36:08
    • 92: Cybersecurity in Digital Transformation Era - part 2 34:29
    • 93: Network Function Virtualization (NFV) - part 1 31:53
    • 94: Network Function Virtualization (NFV) - part 2 21:33
    • 95: Network Function Virtualization (NFV) - part 3 19:16
    • 96: Network Function Virtualization (NFV) - part 4 13:28

Course media

Description

Modern Communication Systems - Course Syllabus

  1. Evolution of Mobile Communication - I
  2. Evolution of Mobile Communication - II
  3. Wireless Spectrum and its Implementation in 5G - I
  4. Wireless Spectrum and its Implementation in 5G - II
  5. Wireless Spectrum and its Implementation in 5G - III
  6. Wireless Technology 5G and Beyond - I
  7. Wireless Technology 5G and Beyond - II
  8. Practical 2G-3G-4G - I
  9. Practical 2G-3G-4G - II
  10. Practical 2G-3G-4G - III
  11. Practical 2G-3G-4G - IV
  12. Practical 2G-3G-4G - V
  13. Introduction to HSPDA
  14. Modulation and Antenna Systems
  15. Introduction to 4G-LTE - I
  16. Introduction to 4G-LTE - II
  17. Introduction to 4G-LTE - III
  18. Cognitive Radio Networks (CRN) - I
  19. Cognitive Radio Networks (CRN) - II
  20. Cognitive Radio Networks (CRN) - III
  21. Cognitive Radio Networks (CRN) - IV
  22. Indoor Radio Planning - I
  23. Indoor Radio Planning - II
  24. Indoor Radio Planning - III
  25. Distributed Antenna Systems - I
  26. Distributed Antenna Systems - II
  27. Distributed Antenna Systems - III
  28. Distributed Antenna Systems - IV
  29. Distributed Antenna Systems - V
  30. Distributed Antenna Systems - VI
  31. Designing Indoor DAS solutions - I
  32. Designing Indoor DAS solutions - II
  33. Designing Indoor DAS Solutions - III
  34. Designing Indoor DAS Solutions - IV
  35. Designing Indoor DAS solutions - V
  36. Designing Indoor DAS Solutions - VI
  37. Designing Indoor DAS Solutions - VII
  38. Traffic Dimensioning - I
  39. Traffic Dimensioning - II
  40. Noise - I
  41. Noise - II
  42. Noise - III
  43. The Link Budget - I
  44. The Link Budget - II
  45. Tools for Indoor Radio Planning - I
  46. Tools for Indoor Radio Planning - II
  47. Optimization of Radio Resources
  48. Tunnel Radio Planning - I
  49. Tunnel Radio Planning - II
  50. Tunnel Radio Planning - III
  51. Tunnel Radio Planning - IV
  52. Covering Indoor Users from Outdoor Network - I
  53. Covering Indoor Users from Outdoor Network - II
  54. Small Cell Indoors - I
  55. Small Cell Indoors - II
  56. Application Examples - I
  57. Application Examples - II
  58. Application Examples - III
  59. Planning Procedure
  60. Mobile Network Engineering - I
  61. Mobile Network Engineering - II
  62. Mobile Network Engineering - III
  63. GSM - I
  64. GSM - II
  65. GSM - III
  66. EGPRS
  67. Third Generation Network - I
  68. Third Generation Network - II
  69. Third Generation Network - III
  70. HSPA - I
  71. HSPA - II
  72. 4G-LTE - I
  73. 4G-LTE - II
  74. 4G-LTE - III
  75. 4G-LTE - IV
  76. 4G-LTE - V
  77. 4G-LTE - VI
  78. LTE-A - I
  79. LTE-A - II
  80. From 5G to 6G - I
  81. From 5G to 6G - II
  82. Network of the Future - I
  83. Network of the Future - II
  84. Network of the Future - III
  85. Future of Wireless Communication with 6G
  86. AI and ML in 5G and 6G Era
  87. 6G Wireless Communication Systems - I
  88. 6G Wireless Communication Systems - II
  89. 6G Architectures, Applications and Challenges - I
  90. 6G Architectures, Applications and Challenges - II
  91. Cybersecurity in Digital Transformation Era - I
  92. Cybersecurity in Digital Transformation Era - II
  93. Network Function Virtualization (NFV) - I
  94. Network Function Virtualization (NFV) - II
  95. Network Function Virtualization (NFV) - III
  96. Network Function Virtualization (NFV) - IV

Who is this course for?

Everyone

Requirements

Zeal and enthusiasm to make it big!

Career path

  • Telecommunications Engineer
  • Network Engineer
  • Electronics Engineer
  • Electrical Engineer
  • Software Developer/Engineer
  • Network Administrator
  • Systems Architect
  • Data Analyst
  • Cybersecurity Specialist
  • VoIP Engineer
  • UX/UI Designer
  • IoT Developer
  • Satellite Communication Engineer
  • Unified Communication Specialist
  • Voice Assistant Developer
  • Embedded Engineer
  • Digital Design Specialist
  • Telecom Engineer
  • AI Developer

Questions and answers

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Certificates

Reed Courses Certificate of Completion

Digital certificate - Included

Will be downloadable when all lectures have been completed.

Uplatz Certificate of Completion

Digital certificate - Included

Course Completion Certificate by Uplatz

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Legal information

This course is advertised on reed.co.uk by the Course Provider, whose terms and conditions apply. Purchases are made directly from the Course Provider, and as such, content and materials are supplied by the Course Provider directly. Reed is acting as agent and not reseller in relation to this course. Reed's only responsibility is to facilitate your payment for the course. It is your responsibility to review and agree to the Course Provider's terms and conditions and satisfy yourself as to the suitability of the course you intend to purchase. Reed will not have any responsibility for the content of the course and/or associated materials.

FAQs

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