COVID-19 Impact Analysis: Find out the Business Overview of Software Defined Radio Market – KSU

The use of software-defined radio stations is growing. As processing power becomes more affordable for multiple software deployments, SDR-based radios are becoming more common in both high-end and low-end applications. One of the main advantages of SDR technology is that it can be programmed to meet the exact specifications of the user; minor software adjustments can make the radio fully compliant. It is also becoming easier to integrate SDR with open source applications such as GNU software.

What is software defined radio?

SDR (Software Defined Radio) is a radio that can be configured to operate on a specific frequency. The technology can be used to change the frequency of the radio (or firmware). Hardware-based radios are usually equipped for certain frequency bands or applications. Because the radio transmitter and front-end modules are designed to operate at a specific frequency, the frequency of hardware-based radios cannot be easily adjusted. However, this is not the case with software radios; these radios can be configured to operate at a specific frequency.

What is the difference between software defined radio and software controlled radio?

Software Controlled Radio (SCR) is a form of radio in which some or all of the functions of the physical layer are controlled by software. In other words, this form of radio relies solely on software to monitor the various fixed functions of the radio. On the other hand, software-defined radio (SDR) is a form of radio in which some or all of the functions of the physical layer are defined by the software. In other words, the program is used to evaluate the specifications and capabilities of the radio. If the radio software is updated, the radio output and functionality may be affected.

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The SDR has a common hardware architecture in which the software works to include functions such as modulation and demodulation, filtering (which include bandwidth changes), and other functions such as frequency selection and, if necessary, frequency hopping. The radio output is changed by reconfiguring or modifying the program. To achieve this, software modules running on a standardized hardware platform consisting of digital signal processors (DSPs) and general purpose processors are used to perform radio functions such as signal transmission and reception.

What are the advantages of SDRs?

  • The ability to try new things (for example, the freedom to develop new protocols)
  • Turn off analog hardware and associated costs, resulting in radio architectures that are simpler and work better.
  • The ability to detect and prevent intrusion from other communication networks.
  • The ability to select the frequency range and mode that are more suitable for the current conditions.
  • The ability to use a standard collection of hardware to receive and transmit various modulation methods.

Significant applications of software-defined radio stations

The definition of radio SDR software can be applied in different situations:

Software-defined radio technology is used quite effectively by radio amateurs to increase the efficiency and flexibility of the device.

Software-defined radio technology is widely accepted by the military, allowing them to reuse hardware and upgrade signal formats if necessary.

Many research projects benefit from software-defined radio or SDR. Without having to start from scratch, radios can be programmed to provide the exact transmitter and receiver specifications for each application.

In areas such as mobile communications, software radios are extremely useful. By updating the program, it is possible to make adjustments to any specifications and even include new waveforms without having to upgrade the hardware. This can also be achieved remotely, leading to significant cost savings.

SDR technology can be used in a number of other applications, allowing the radio to be precisely adapted to specifications through software changes.

What is the difference between FPGA, DSP and GPP methods for SDR implementation?

There are several methods for designing and deploying SDR modules on hardware platforms, including: field programmable port array (FPGA), digital signal processor (DSP), and general purpose processor (GPP). The following table compares different SDR design methods based on different parameters such as performance, energy efficiency, cost, performance, and cost, among others. This table helps in choosing the best method for SDR projects.

Parameters FPGA DSP NO PROBLEM
Form factor Small Medium Great
Execution Strongly parallel Partly partially Consistently
Input Output Custom configurable ports Specialized ports Specialized ports
Expenses Moderate Low Moderate
Bandwidth High Medium Low
Energy efficiency High Medium Low
Calculation User configurable logic Fixed arithmetic machine Fixed arithmetic machine

SDR technology aims to reduce costs by providing end users with seamless wireless communications – allowing them to connect with whomever they want, whenever they want and in any way they need to. According to Research Dive, global software radio market is expected to generate revenue of $ 16,455.8 million by 2027 at a CAGR of 4.4% in 2020-2027. From end users to business travelers to front-line soldiers, SDR technology benefits everyone.

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