Wireless Engineering Training Bootcamp
Wireless Engineering is the branch of engineering which addresses the design, application, and research of wireless communication systems and technologies.
Since the invention of the FM radio in 1935, wireless communications have become a concentrated focus of both private and government sectors. Now, wireless technology plays a key role in today’s communications, and new forms of it will become central to emerging technologies including robots, drones, self-driving vehicles and new medical devices over the next several years.
Wireless technology has become an integral part of our daily activities.
Wireless communication provides an exchange of data without any conductor through RF and radio signals. The information is transmitted across devices over just a few meters to hundreds of kilometers through well-defined channels.
In wireless engineering different electromagnetic signals are used depending on their wavelength and frequency. For example, radio frequency (RF) is a type of electromagnetic transmission used in wireless communication. These signals are easily generated ranging from 3ikHz to 300GHz. RF signals are popular for wireless communication because of their ability to travel long distances and penetrate through objects.
Another popular type of electromagnetic signal deployed in wireless technology is the microwave transmission. Microwaves are the form of electromagnetic transmission used in wireless communication networks. The wavelength of microwave ranges from 1 meter to one millimeter. The frequency varies from 300MHz to 300GHz. These are widely used for long distance communications and are relatively less expensive than other types of wireless technology.
One of the key wireless technologies involved in the IoT architecture is Wi-Fi, which has been assigned the standard 802.11 by the Institute of Electrical and Electronics Engineers (IEEE), and operates at either 2.4 GHz or 5 GHz.
Wi-Fi works off of the same principal as other wireless devices — it uses radio frequencies to send signals between devices. The radio frequencies are completely different say from walkie talkies, car radios, cell phones and weather radios. Wi-Fi transmits and receives data in the Gigahertz range.
Wi-Fi commonly makes use of a router, which offers a maximum range of 100 meters (or a little longer than a football field).
Many IoT devices currently make use of Wi-Fi, and more are expected to do so as offloading accompanies 5G network rollouts.
Wireless Engineering Training Bootcamp Course by Tonex
Wireless Engineering Training Bootcamp is a 3-day training program covering all aspects of Wireless communications. Participants will learn the fundamentals of RF, Software-Defined Radio (SDR), microwave, cellular, Wi-Fi, Bluetooth and SATCOM engineering.
Wireless engineering training emphasizes on wireless networking principles, software, hardware, firmware, embedded applications, and digital signal processing engineering and design approaches.
Wireless communications theories focusing on devices, circuits, systems, networks, standards, management, and applications. are reviewed.
The Wireless Engineering Training Bootcamp program is designed to provides leading edge specialized knowledge in wireless communications systems to practicing engineers, analysts, project managers, product managers, testing/verification engineers and other technical personnel.
Key topics include key wireless technologies, engineering practices, RF and microwave engineering, wireless signal processing and coding, multi-carrier, multi-antenna, and multi-user wireless communications, space and satellite communications, IoT (Internet of Things), cybersecurity and more.
Other topics include engineering and design, RF fundamentals, microwave principles, digital signal processing, embedded wireless applications, networking, protocols, LTE, 5G, Wi-Fi, 802.11ac/802.11ax, 802.11ad/802.11ay, 802.11az, Bluetooth/BLE, RFID, SATCOM, VSAT and other wireless technologies.
- Explore the latest wireless technologies including 5G, LTE, Wi-Fi, Bluetooth, Space and Satellite Communications
Overview of Wireless Engineering Principles
- RF 101
- Principles of RF Propagation
- Modulation and Coding Fundamentals
Basics of RF and Wireless Communications
- Wireless Communication Systems
- Principles of RF and Microwave
- Overview of Modulation and Coding
- Antenna Theory and Design
- Antenna Engineering
RF System Design for Wireless Communications
- Wireless Digital Communication
- Applied RF Engineering
- Circuits and Transmission Lines
- Principles of Multiple Access
- OFDM/OFDMA Principles
- MIMO/MU-MIMO Fundamentals
- Microwave Engineering
- WiFi and Bluetooth Engineering
- 4G/LTE Fundamentals
- IMT-2020 5G Systems, 3GPP 5G NR Fundamentals
- IMT-2030 6G
- Wireless Engineering for Sensors and IoT
- Satellite Communications (SATCOM)
- Wireless System Engineering and Design Considerations
- System Performance
Overview of Digital Signal Processing
- Digital Signal Processing in Wireless Communications
- Signals Processing Principles
- Principles of Software Defined Radio (SDR)
- Overview of GNU Radio (basics of Python and C++ libraries are covered)
- DSP Tools
- Creating Waveform
Overview of Wireless LANs (802.11), Bluetooth and Zigbee
- Wireless Mesh
- Bluetooth and BLE
Overview of Other Wireless Technologies
- RFID and RTLS
- Wireless USB and UWB
- White Space Radio Communications
- Antenna Engineering
- SATCOM and VSAT
- 5G, IMT-2020
Principles of Multiple Access
- OFDM & OFDMA
Overview of Cellular Networks
- GSM/GPRS & EDGE
- IS-95, CDMA2000
- 3G/UMTS/WCDMA Cellular Networks
- 4G, LTE and LTE-A Cellular Networks
- 5G Wireless Evolution
- 5G Use Cases
- LTE/LTE-Advanced/LTE-Advanced Pro
- LTE Unlicensed / LTE License Assisted Access (LAA)
- LTE-WiFi Radio Level Aggregation (LWA)
- Overview of 5G NR
- 5GC and SBA