Wireless Communications - Presentation.pdf
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This document provides an overview of wireless communication technologies. It defines wireless communication as the transmission of information between two or more points without a physical connection. The document then discusses the history and development of wireless communication from early radio to modern cellular networks. It also covers the basic elements of a wireless communication system including transmitters, channels, and receivers. Finally, it describes different types of wireless technologies such as Bluetooth, Wi-Fi, and cellular networks as well as short-range wireless communication systems.
Wireless Communications - Presentation.pdf
- 2. What is wireless communication? Why we need Wireless Communications History and Era Examples Types of Cellular Networks Challenges, Advantages and Features. Basic Elements of Wireless Communication System Different types of Wireless Communication Systems Short-Range Wireless Communications. Contents
- 3. What is wireless communication? • In layman language it is communication in which information is transferred between two or more points without any wire. Wireless communications is the transmission of voice and data without cable or wires. In place of a physical connection, data travels through electromagnetic signals broadcast from sending facilities to intermediate and end-user devices. Definition:
- 4. Why we need Wireless Communications: The main advantage of wireless communication is mobility. This kind of communication provides flexibility and very easy to use excepting mobility. Its infrastructure because, for the wired communication systems, the fitting of infrastructure is a costly & time taking task whereas the installation of wireless communication infrastructure is very simple and less cost.
- 5. Finally, we can conclude that in remote areas as well as emergency situations, the wired communication setup is not easy but wireless communication is a possible choice. There are many reasons to employ wireless communication like liberty from wires, global coverage, flexibility & stay connected. …Continues
- 6. The first wireless transmitters went on the air in the early 20th century using radiotelegraphy, which is radio communication using Morse code or other coded signals. Later, as modulation made it possible to transmit voice and music wirelessly, the medium became known as radio. Wireless transmitters use electromagnetic waves to carry voice, data, video or signals over a communication path. History
- 7. The groundwork for modern wireless networking was laid in the early 1970s with the launch of ALOHAnet in Hawaii. The network, technically a wide area network (WAN), relied on ultra-high frequency signals to broadcast data among the islands. The technology underpinning ALOHAnet helped fuel the creation of Ethernet in 1973 and played an important role in the development of 802.11, the first wireless standard. …Continues
- 8. The first telegraph was invented (1600 – 1833). The invention of the radio from the telegraph (1867-1896). The birth of radio (1897 – 898). Transoceanic Communication (1901 –1909). Voice over Radio and the First Television Transmissions (1914 – 1940). Commercial Television and the Birth of Mobile Telephony (1946 – 1976). Cellular Mobile Telephony and Steps toward Wireless Internet (1979 – 1994) The Wireless Data Era (1997 – 2009). …Continues
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- 11. Cellular phones Cordless telephones Global positioning systems Cordless computer peripherals Wireless LANs (WLANs) Wireless routers Laptops and tablets are Wi-Fi-enabled Infrared (IR) Examples of Wireless Devices
- 13. Types of Cellular Networks: For much of the 1990s and 2000s, cellular networks were supported by two standards: Global system for mobile communications (GSM) and Code Division Multiple Access (CDMA). GSM and CDMA each had its own access methodologies that applied to 2G and 3G cellular specifications. With the advent of 4G/LTE and especially 5G, the distinctions between the two technologies have diminished and carriers are in the process of retiring their older GSM and CDMA networks.
- 14. 2G.: This first major wave of cellular technology adoption was introduced in 1991, with speeds limited to 236.8 Kbps. 3G.: Third-generation networks began to appear in 2001. 3G offered increased bandwidth and signal quality over 2G and provided a peak speed of 384 kbps to 7.2 Mbps. 4G/LTE.: Fourth-generation wireless and LTE began to appear in 2009 as successors to 3G. As opposed to the 2G and 3G standards, the International Telecommunication Union specified a strict minimum data rate for 4G. To be considered 4G/LTE, the cellular networks have to transmit and receive at 100 Mbps. …Continues
- 15. 5G.: Fifth-generation wireless was first introduced as a technical standard in 2016, and carriers began to deploy it in 2019. 5G provides more bandwidth than its predecessors, data speeds that can range as high as 20 GBPS and ultra-low latency -- five milliseconds or less. …Continues
- 16. Challenges:
- 17. The transmitted distance can be anywhere between a few meters (for example, a television's remote control) and thousands of kilometers (for example, radio communication). Wireless communication can be used for cellular telephony, wireless access to the internet, wireless home networking, and so on. Other applications of radio wireless technology include GPS units, wireless computer mice, keyboards and headsets, headphones, radio receivers, satellite television, broadcast television. Features:
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- 19. Advantages: Wireless communication involves transfer of information without any physical connection between two or more points. Because of this absence of any 'physical infrastructure', wireless communication has certain advantages. This would often include collapsing distance or space.
- 20. …Continues Cost effectiveness Flexibility Convenience Reliability Speed Accessibility Constant connectivity etc.,
- 21. Disadvantages: Even though wireless communication has a number of advantages over wired communication, there are a few disadvantages as well. The most concerning disadvantages are Interference, Security and Health concerns etc.,
- 22. Basic Elements of Wireless Communication System: A typical Wireless Communication System can be divided into three elements: the Transmitter, the Channel and the Receiver.
- 23. …Continues
- 24. …Continues The Transmission Path It consists of Encoder, Encryption, Modulation and Multiplexing. The signal from the source is passed through a Source Encoder, which converts the signal in to a suitable form for applying signal processing techniques. The redundant information from signal is removed in this process in order to maximize the utilization of resources.
- 25. …Continues The Channel: The channel in Wireless Communication indicates the medium of transmission of the signal i.e. open space. A wireless channel is unpredictable and also highly variable and random in nature. A channel maybe subject to interference, distortion, noise, scattering etc. and the result is that the received signal may be filled with errors.
- 26. The Reception Path The Receiver is to collect the signal from the channel and reproduce it as the source signal. The reception path of a Wireless Communication System comprises of Demultiplexing, Demodulation, Channel Decoding, Decryption and Source Decoding. From the components of the reception path it is clear that the task of the receiver is just the inverse to that of transmitter. …Continues
- 27. Different Types of Wireless Communication It takes complex technology to maintain remote wireless communication and control of these satellites. In truth, wireless communication technology has an unseen impact on all of our lives each day. Learn the answer by reading our in-depth guide to wireless technologies.
- 28. …Continues Satellite Communications Infrared Communications Broadcast Radio Micro-wave Communications Wi – Fi Mobile Communications Bluetooth
- 29. Short-range wireless communications systems characterize a wide range of scenarios, technologies, and requirements. We define short-range communications as the systems providing wireless connectivity within a local sphere of interaction. Short-range wireless communication is of the following types: Bluetooth Wi-Fi ZigBee UWB IR Short – Range Wireless Communications
- 31. Bluetooth: Bluetooth is a wireless communication technology standard used for exchanging data between fixed and mobile devices over short distances. It uses UHF radio waves in the industrial, scientific and medical radio bands, from 2.402 GHz to 2.480 GHz, and building personal area networks (PANs).
- 32. Bluetooth and its applications in IoT: …Continues Bluetooth was developed by Ericsson in 1994 uses short-wavelength UHF waves between 2402 and 2480 MHz. Widely known as the best wireless transmission technology for audio and the ubiquitous solution for hands-free calling in automobiles. Bluetooth is making waves in consumer and business IoT where device- to-device communication needs to be fast, easy, and wireless.
- 34. The Internet of Things (IoT) is not constricted to purely internet-based connectivity. In fact, Bluetooth Low Energy (BLE) solutions are increasing the functionality of IoT devices more successfully than via the internet. This creates a more reliable framework for further connectivity. BLE technology will enhance and optimize the overarching operability of smart home devices by creating faster communication speeds and extending signal range.
- 35. How does it work? Piconet: The Bluetooth network is called a piconet. If it contains one master and one slave then its called a single piconet. The Master is the one that initiates the communication with other devices and it dictates when a slave device may transmit. Direct Slave to Slave communication is not possible. Maximum 8 devices including the master can communicate at any one time in a piconet.
- 36. Scatternet Its a Combination of multiple piconets. Here Master of one piconet can be a slave in another piconet. This node can receive a message from a master in one piconet and deliver the message to its slave into the other piconet. Therefore, this type of node is referred to as a bridge node. Above all, a station cannot be master in two piconets.
- 41. Wi-Fi (Wireless Fidelity) Wi-Fi is a family of wireless network protocols, based on the IEEE 802.11 family of standards. Devices that can use Wi-Fi technologies include personal computer desktops and laptops, smart phones and tablets, smart TVs, printers, smart speakers, cars, and drones.
- 42. Internet: Wi-Fi provides high-speed internet to users. The speed depends on the quality of the cables. Video conferencing: It makes video conferencing less expensive than cellular data with excellent quality. Common access points: In universities or colleges, it provides a single point of the internet from where everyone can use the Wi-Fi with their provided credentials. If you have an ethernet-only device, then you can also connect it to your Wi-Fi. Read this article to explore more.
- 43. Internet and Wi – Fi:
- 46. ZigBee Zigbee is an IEEE 802.15.4-based specification for a suite of high-level communication protocols. It is used to create PANs with small, low-power digital radios, such as for home automation and medical device data collection. Zigbee is a low-power, low data rate, and close proximity (i.e., personal area) wireless network. Zigbee is intended to be simpler and less expensive than other wireless PANs (WPANs), such as Bluetooth or Wi-Fi.
- 47. ZigBee for Internet of Things:
- 48. ZigBee Protocol working Examples:
- 49. UWB (Ultra wide band) Ultra-wideband (also known as UWB) is a radio technology that can use a very low energy level for short-range, high-bandwidth communications over a large portion of the radio spectrum. UWB has traditional applications in non-cooperative radar imaging. Recent applications target sensor data collection, precision locating, and tracking applications.
- 51. IR (Infrared) These devices usually conform to standards published by IrDA, the Infrared Data Association. Remote controls and IrDA devices use infrared light-emitting diodes (LEDs) to emit infrared radiation that is focused by a plastic lens into a narrow beam. The beam is modulated, i.e. switched on and off, to prevent interference from other sources of infrared (like sunlight or artificial lighting).
- 52. The receiver uses a silicon photo-diode to convert the infrared radiation to an electric current. It responds only to the rapidly pulsing signal created by the transmitter, and filters out slowly changing infrared radiation from ambient light. Infrared communications are useful for indoor use in areas of high population density. Infrared is the most common way for remote controls to command appliances. …Continues
- 54. Bluetooth Vs. ZigBee Vs. Wi - Fi