This article provides an overview of top-rated online Telecom courses available on the internet. With the increasing demand for skilled professionals in the Telecom industry, online courses have emerged as a convenient and cost-effective way to gain knowledge and expertise in the field. The courses discussed in this article cover a range of topics, including wireless communication technologies, network security, and telecommunications management, among others. Students can choose from a variety of course formats and delivery methods, including self-paced learning, instructor-led classes, and online simulations. Additionally, the courses are designed to cater to learners of diverse educational backgrounds and experience levels, from beginners to advanced professionals.
Here’s a look at the Best Telecom Courses and Certifications Online and what they have to offer for you!
Telecom Protocol Testing Course Online
- Telecom Protocol Testing Course Online
- 1. Introduction to Wireless Communications by Yasir Ahmed (Udemy) (Our Best Pick)
- 2. Telecom Enterprise Systems Fundamentals by Juan Sebastian Garcia (Udemy)
- 3. Introduction To Fiber Optic Cabling by Sebastian Flores (Udemy)
- 4. Optical Fiber Access Networks Using PON/FTTH by Dr. Moazzam Tiwana (Udemy)
- 5. Learn about Transmission used in Telecom by Cognitel Training Services (Udemy)
- 6. Big Data Analytics in Telecommunication by RankOne Consulting (Udemy)
- 7. Learn Basics of Telecommunication Networks by Cognitel Training Services (Udemy)
- 8. Installing and Setting up FreeSWITCH: Basics by Eddy Chiang (Udemy)
- 9. Introduction to Telecom Business Process by Cognitel Training Services (Udemy)
- 10. Learn about Wireless Cellular Networks by Cognitel Training Services (Udemy)
1. Introduction to Wireless Communications by Yasir Ahmed (Udemy) (Our Best Pick)
The Introduction to Wireless Communications course is designed to teach participants about important concepts in wireless communication. The course covers a range of topics such as frequency reuse, capacity, channel coding, modulation and demodulation, OFDM and MIMO. This course is suitable for both students who are new to the field of wireless communications and professionals who want to gain a better understanding of fundamental concepts. The long description of the course provides an overview of the topics that will be covered. Participants will learn about the basic principles of wireless communication from 1G to 4G and beyond. Additionally, they will explore a range of topics such as frequency reuse, capacity, channel coding, modulation and demodulation, OFDM, MIMO, and other related topics. The course is structured around five sections including Welcome, Fundamental Concepts, Coding and Modulation, Advanced Concepts, and Wireless Standards. The Welcome section provides an introduction to the course and sets the stage for the topics that will be covered. The Fundamental Concepts section covers the basic principles of wireless communications, including the history of wireless communication, frequency reuse, and capacity. The Coding and Modulation section explores topics such as channel coding, modulation, and demodulation. In the Advanced Concepts section, participants will delve into topics such as OFDM and MIMO. Finally, the Wireless Standards section covers various wireless standards, including 1G, 2G, 3G, and 4G. Overall, the Introduction to Wireless Communications course provides participants with a comprehensive understanding of wireless communication. With its structured approach and in-depth coverage of key concepts, this course is ideal for anyone who wants to gain a better understanding of wireless communication.
The Telecom Enterprise Systems Fundamentals course is designed for individuals who wish to become Telecom Experts or obtain Avaya Certification. The course is tailored to assist IT professionals working with corporate Enterprises to pass the Avaya Exams. The Avaya platform is used in most major banks and financial institutions. No prior programming knowledge or Avaya experience is required to take this course.
The course begins with a detailed overview of the Telecom platform, its history, and evolution. The individual elements of the Avaya platform are also explored, such as SIP PBX, Unified Communications, Contact Center, Omnichannel, Automation, and Artificial Intelligence. Upon completion of this course, individuals will have a comprehensive understanding of Telecom Enterprise Systems and the Avaya platform.
The course content is divided into several sections, including an introduction to Telecom Enterprise Systems, Telecom Cabling Systems, and Telecom Data Fundamentals I and II. Additionally, Telecom Data Network Requirements, Telecom Quality of Service Fundamentals, and Telecom SIP PBX are covered. The course also includes sections on Telecom Enterprise Systems Fundamentals I, II, and III, Enterprise Systems Contact Center I and II, and Artificial Intelligence for the Enterprise.
Individuals who complete this course will be in high demand by many employers and can command a superior salary providing Artificial Intelligence services for Enterprise Corporations. The course is suitable for individuals with no prior Avaya experience, and it covers all the necessary knowledge to pass the Avaya Exams.
Introduction to Fiber Optic Cabling is a course led by Sebastian Flores that aims to provide a comprehensive understanding of fiber optics and fiber data transmission. The course is designed to meet the increasing demand for faster internet connections that support a variety of activities, such as online gaming, streaming movies, and mobile phone use.
The course begins by highlighting the limitations of copper-based cabling and the need for fiber optic cabling to support higher speeds and data capacity. The communications industry has invested billions in upgrading old copper cabling to fiber optic cabling, but the installation process requires more man power than is available. This creates opportunities for employment in the fiber optic field.
The course covers the basics of fiber optics, and is based on the curriculum taught at the University of Riverside that leads to a Certified Fiber Optic Technician (CFOT) Certificate from the Fiber Optics Association (FOA). The course is intended for anyone who wants to learn about fiber optics, including those who are curious about the technology and IT managers who want to gain knowledge in the field.
The course is divided into several sections, including an introduction, fiber optic safety, fiber optic cable construction, data transmission, and an overview of why fiber optics are important. At the conclusion of the course, students will have a comprehensive understanding of fiber optics and will be prepared for further education or employment in the field.
The Optical Fiber Access Networks Using PON/FTTH course, taught by Dr. Moazzam Tiwana, provides comprehensive and in-depth training on the Passive Optical Network (PON) technology. PON uses fiber optic cables to deliver video, data, and voice signals and is 95% more energy efficient than traditional copper wire. The course covers Gigabit PON (GPON) networks, which are currently the leading form of PONs. GPON networks use optical splitters to provide a low-cost solution for adding new users, making them desirable in populated areas.
The course is designed for individuals aspiring to start a career in telecom companies or for those already working in the field of broadband service. The training provides attendees with functional knowledge of PON technology in the shortest possible time. Upon completion of the course, attendees will be able to describe PON/FTTx, GPON networking, GPON network architecture, basic concepts, applications/use cases, advantages, requirements, capabilities, typical application scenarios, key concepts, and operational procedures.
The course content is divided into several sections, including an introduction to PON technology, the evolution of PON technology, the application of PON in 5G technology, optical fiber communication basics for PON, GPON architecture and protocols, GPON ONU power on/activation states, and dynamic bandwidth allocation in GPON. The course provides a comprehensive understanding of the technology and prepares attendees for a career in telecom companies.
The course titled Learn about Transmission used in Telecom is offered by Cognitel Training Services, and aims to provide a comprehensive understanding of the transmission medium and technologies used in telecom networks. The course covers various layers of transport networks, including Access network, Metro Access, Metro aggregation, Core, and Backbone. Participants will learn about the two types of transmission media – guided and unguided media, and the two types of transport modes – Microwave and Optical fiber. The course also covers multiplexing and major transport technologies such as PDH, SDH, D-WDM, and C-WDM.
The Access network provides the last mile communication from Customer Premises Equipment to the network. The Metro access network connects access nodes to aggregation nodes. The Core network comprises core layer switches that provide interconnectivity among different users. The Backbone is a network part that interconnects various pieces of network, providing a path for the exchange of information between different LANs or subnetworks.
Guided media and unguided media are the two types of transmission media used. Guided media are the physical links through which signals are confined to narrow paths, while unguided media is the wireless media. Microwave and Optical fiber are the two types of transport modes mostly used.
Multiplexing is utilized to send multiple signals over a common high capacity transmission media, such as copper or fiber. The course content and sections include an introduction to transmission, transport technologies and protocols, SDH, DWDM, Microwave and IP Oriented Transport Technologies, Transport Network Application, and Course Summary. An assessment quiz is also included.
The course titled Big Data Analytics in Telecommunication offered by RankOne Consulting focuses on the transformative nature of Big data analytics in the telecommunication service provider domain. The telecommunication industry has become the backbone of the modern digital world, connecting people globally. The industry generates a huge amount of data, which is at a high velocity, volume, and wide variety. The course aims to answer the questions related to the sources of Big Data generation in Telecom Industry, how Telcos are using Big Data tactics to enhance their revenue, and what will be the roadmap on Big Data in the Telecom Industry.
Telecommunication service providers are utilizing Big Data analytics to make better business decisions. They use various techniques to enhance the hidden insights and foresight of Big Data to stay ahead of competition. The course on Big Data in Telecom will address the Telco’s use cases and experienced experts’ knowledge. Students will be exposed to industry-specific terms like ARPU, DREC, AON, customer segmentation, campaign efficacy, etc. The course content will be periodically updated, and regular flow of assignments is ensured to students opting for the program. The lifetime access to all the material anytime anywhere and expert consulting for Big Data assignments is an add-on.
The course has a total of 23 reviews, which are positive and highlight the excellent presentation and content that provides great insight into the use of Big Data in telecommunications. The course is an industry-relevant program for graduates, BI, and data scientists that fuse Big Data Analytics facts, Telco’s use cases, and experienced experts’ knowledge.
The course content is divided into sections like Big Data Transforming Telecommunication Industry, The Data Diluge :: Internal Data, The Data Diluge :: External data, Thanks to Big Data :: Facts Uncovered, Real Time Analytics, Big Data :: Use Case, Big Data Analytics in Telecommunications, and an exercise to ponder with algorithms on predictive analysis.
The Learn Basics of Telecommunication Networks course, offered by Cognitel Training Services, provides an in-depth understanding of telecommunications networks. Students will learn about the fixed and wireless network architecture, as well as the Open Systems Interconnection or OSI model, which is a theoretical framework for understanding and explaining networking protocols. Additionally, the course covers basic concepts related to frequency and spectrum.
The course starts with a discussion of the evolution of legacy PSTN networks and covers Network Architecture for Fixed and Wireless networks for a Service Provider using a hierarchy of Core, Aggregation, and Access. Participants will also learn about network components, network topologies, transmission media, and TCP/IP protocol suite.
The OSI model has been discussed in detail, providing a good understanding of the different layers and their functionalities. This framework allows communication between different systems without any changes to the underlying hardware and software, making introducing changes easier as no other layers are affected.
Finally, the course concludes with a section dedicated to wireless access basic concepts related to frequency and spectrum. The assessment quiz at the end allows participants to check their learning.
Course Title: Installing and Setting up FreeSWITCH: Basics is a course facilitated by Eddy Chiang. The course is designed to teach individuals on how to install and set up FreeSWITCH for their home office.
The course entails learning how to install Ubuntu Server 12.04 and installing FreeSWITCH on top of Ubuntu. Additionally, the course covers creating an extension number, registering your SIP provider, inbound dialplan, outbound dialplan, and a simple IVR system.
The course’s content is divided into four sections, namely the Introduction, Setting up your Server, Setting up FreeSWITCH Configurations, and Conclusion. The Introduction section provides an overview of the course’s objectives, while the Setting up your Server section guides learners through the installation and configuration of Ubuntu.
The Setting up FreeSWITCH Configurations section covers the installation and configuration of FreeSWITCH, including creating an extension number, registering your SIP provider, inbound and outbound dial plan, and a simple IVR system. Lastly, the Conclusion section summarizes the course’s objectives and emphasizes the importance of the skills learned.
In summary, individuals interested in learning how to install and set up FreeSWITCH for their home office can enroll in the Installing and Setting up FreeSWITCH: Basics course facilitated by Eddy Chiang. The course is divided into four sections, and learners will be guided through the installation and configuration of Ubuntu, FreeSWITCH, and other related concepts.
Cognitel Training Services offers a course titled Introduction to Telecom Business Process that aims to teach students about the business processes used in the telecom industry. The course is centered around various frameworks, including NGOSS (New Generation Operations Systems and Software), which was created by the Tele Management Forum. The framework is designed to help produce new generation OSS/BSS solutions and includes a repository of models, documents, and other supporting materials.NGOSS is a component-based framework that includes several key components: the enhanced Telecom Operations Map (or eTOM), the Shared Information Data (or SID) Model, Technology Neutral Architecture (or TNA) and Contract Interfaces, and the NGOSS Compliance Element. The course provides an in-depth look into these components and their respective roles within the framework.Frameworx is the new name for NGOSS, and it combines other frameworks to create a more comprehensive solution. The course covers the mapping between the old and new frameworks, including eTOM to Business Process Framework, SID to Information Framework, and TNA to Integration Framework. The course also includes sections on eTOM Level 0, Level 1, and Level 2, as well as an assessment quiz.eTOM is a reference framework that categorizes all the business activities that a service provider performs. SID is designed for standard representation of data so that it can be shared or reused by different OSS and BSS applications provisioned by multiple vendors. TNA, along with interfaces, forms an Integration Framework that can sustain through technology changes and integrate other applications using interfaces.Overall, the course provides a comprehensive overview of the telecom industry’s business processes through the lens of various frameworks, including NGOSS and Frameworx.
Cognitel Training Services offers a course titled Learn about Wireless Cellular Networks which covers the evolution of various network technologies ranging from 0G to 5G. The course content includes the GSM/3G/LTE network architecture, the functions of different nodes used in the network, the core network and its protocols and interfaces, Intelligent Network, and VoLTE. The course concludes with an assessment quiz.
The course starts with a discussion on 0G which refers to pre-cellular mobile telephony technology in the 1970s, followed by 1G which represented a leap in mobile communication in terms of capacity and mobility. The 2G network was first launched in Finland in 1991 and started becoming digital with the introduction of circuit switching. 2.5G refers to the addition of GPRS and EDGE which introduced data or packet switching on mobile devices.
The 3G network was first launched by NTT in Japan in 2000 and networks were based on concepts that stated packet switching would be applicable for data services only, while voice still used circuit switching. 4G networks refer to Mobile WiMax and LTE standards that comply with 4G requirements of ITU, and were commercially launched in 2008 and 2010, respectively. They are based on packet switching for both voice and data services.
The course covers the GSM/3G/LTE network architecture, including the functions of different nodes used in the network. The core network is the brain of the network and performs essential functions like user authentication and location update. The course also covers the protocols and interfaces used in the core network.
Participants will also learn about the Intelligent Network, which allows networks to differentiate themselves from other network operators by providing additional telecommunication services called VAS. The course concludes with VoLTE and its working.