Software defined radio (SDR) is a radio communication system where components that have traditionally been implemented in hardware (e.g. mixers, filters, amplifiers, modulators/demodulators, detectors) are instead implemented by means of software on a hardware platform consisting of general purpose processors and reconfigurable logic. This allows functionalities and protocols to be modified or updated remotely via software changes rather than hardware redesign. SDR provides benefits such as reduced development costs, future-proofing of networks, and enabling ubiquitous wireless communications. While initially an innovative concept, SDR is now moving into mainstream adoption across markets such as defense, cellular infrastructure, and satellites.
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Software definedradio
1. What is Software Defined Radio
With the exponential growth in the ways and means by which people need to communicate -
data communications, voice communications, video communications, broadcast messaging,
command and control communications, emergency response communications, etc. modifying
radio devices easily and cost-effectively has become business critical. Software defined radio
(SDR) technology brings the flexibility, cost efficiency and power to drive communications
forward, with wide-reaching benefits realized by service providers and product developers
through to end users.
Software Defined Radio - Defined:
A number of definitions can be found to describe Software Defined Radio, also known as
Software Radio or SDR. The SDR Forum, working in collaboration with the Institute of Electrical
and Electronic Engineers (IEEE) P1900.1 group, has worked to establish a definition of SDR
that provides consistency and a clear overview of the technology and its associated benefits.
Simply put Software Defined Radio is defined as1
:
"Radio in which some or all of the physical layer functions are software defined"
A radio is any kind of device that wirelessly transmits or receives signals in the radio frequency
(RF) part of the electromagnetic spectrum to facilitate the transfer of information. In today's
world, radios exist in a multitude of items such as cell phones, computers, car door openers,
vehicles, and televisions.
Traditional hardware based radio devices limit cross-functionality and can only be modified
through physical intervention. This results in higher production costs and minimal flexibility in
supporting multiple waveform standards. By contrast, software defined radio technology
provides an efficient and comparatively inexpensive solution to this problem, allowing multi-
mode, multi-band and/or multi-functional wireless devices that can be enhanced using software
upgrades.
SDR Forum Generalized Functional Architecture Commercial (source:
http://www.sdrforum.org/pages/documentLibrary/documents/SDRF-01-P-0006-V2_0_0_BaseStation_Systems.pdf )
1
http://www.sdrforum.org/pages/documentLibrary/documents/SDRF-06-R-0011-V1_0_0.pdf
2. SDR defines a collection of hardware and software technologies where some or all of the radios
operating functions (also referred to as physical layer processing) are implemented through
modifiable software or firmware operating on programmable processing technologies. These
devices include field programmable gate arrays (FPGA), digital signal processors (DSP),
general purpose processors (GPP), programmable System on Chip (SoC) or other application
specific programmable processors. The use of these technologies allows new wireless features
and capabilities to be added to existing radio systems without requiring new hardware.
Software Defined Radio - Benefits:
The benefits of SDR are compelling.
For Radio Equipment Manufacturers and System Integrators, SDR
Enables:
A family of radio products to be implemented using a common
platform architecture, allowing new products to be more quickly
introduced into the market.
Software to be reused across radio "products", reducing development
costs dramatically.
Over-the-air or other remote reprogramming, allowing
"bug fixes" to occur while a radio is in service, thus
reducing the time and costs associated with operation and
maintenance.
For Radio Service Providers, SDR Enables:
New features and capabilities to be added to existing infrastructure without requiring
major new capital expenditures, allowing service providers to quasi-future proof their
networks.
The use of a common radio platform for multiple markets, significantly reducing logistical
support and operating expenditures.
Remote software downloads, through which capacity can be increased, capability
upgrades can be activated and new revenue generating features can be inserted.
For End Users - from business travelers to soldiers on the battlefield, SDR
technology aims to:
Reduce costs in providing end-users with access to ubiquitous wireless
communications enabling them to communicate with
whomever they need, whenever they need to and in whatever manner
is appropriate.
Software Defined Radio - Rate of Adoption:
The SDR Forum commissioned a number of research reports in 2006 to evaluate the adoption
of SDR technologies in various markets. The results of these studies demonstrated that, in
3. certain markets, SDR is moving beyond the innovators and early adopters as defined by
Geoffrey Moore in Crossing the Chasm into the early majority phase defining the mainstream
market2
. In this phase, adopters select a technology not because it is innovative or visionary but
because it has been shown to successfully solve a problem within their specific market.
Examples of SDR adoption illustrating the transition to the mainstream are abundant:
Thousands of software defined radios have been successfully
deployed in defense applications
Cellular infrastructure systems are increasingly using programmable
processing devices to create common platform or multiband-
multiprotocol base stations supporting multiple cellular
infrastructure standards
Cellular handsets are increasingly utilizing System on Chip (SoC)
devices that incorporate programmable DSP
Cores to support the baseband signal/modem processing
Satellite modems in the commercial and defense markets make
pervasive use of programmable processing devices for intermediate
frequency and baseband signal processing
While these types of systems are often not marketed as SDRs, they utilize
and benefit from SDR technologies to solve market specific problems such as;
cost of development, cost of production, cost of upgrades and maintenance,
time to market in supporting new and evolving air interface standards, or
problems associated with network interoperability.
In addition, the SDR Forums market and technology studies have shown that cost
effective radio frequency technologies supporting the operation of software defined
radios over a broad spectral range have begun to mature, allowing for the first time
the use of software defined radio as an enabling technology for dynamic spectrum
access systems with cognitive or smart radio functionality. This trend is expected
to continue over the next several years, allowing SDR to finally achieve the defined
vision of reducing costs in providing end-users with access to ubiquitous wireless
communications enabling them to communicate with whomever they need,
whenever they need to and in whatever manner is appropriate
2
Geoffrey A. Moore, Crossing the Chasm (Revised Addition), Harper Collins Publishers, 2002
4. Software Defined Radio Value Chain:
The time is now to engage SDR at all levels of the chain
The benefits and anticipated opportunities for SDR technology are having a significant impact
on the wireless industrys value chain. This chain consists of product-based and service-based
providers, with value added at each stage, ultimately resulting in SDR end products and
services that meet the needs of the end users and subscribers.
Throughout the chain, the providers may be supported by external organizations such as
educational institutions, research laboratories, industry standards bodies, investors, tests &
verification and government. These supporting organizations provide critical input as
development progresses through the chain, ultimately reaching the end user. The detail of the
chain and the relationship within the context of the SDR Forum membership is outlined below.
SDR Value Chain: Product and Service Based Providers and Supporting Organizations (Source:
SDR Forum 2005 Year Book)
Please note: companies may represent more than one category in the value chain. For
instance, some defense contractors develop their own SDR subsystems and application
software. Equally most component providers also provide development tools.
SDR has far reaching implications within the chain impacting a variety of organizations and
industry sectors through the radio frequency (RF) chain (front end components, software
developers, chips makers, etc) and throughout business modes (service providers, OEMs, IP
holders, etc.). In order to provide viable products and services to meet the future development
potential of SDR technology, organizations must look to structure SDR into all levels of the
value chain. With successful applications seen in a number of markets, the opportunity to fully
engage SDR at all levels of the chain is now.
5. The SDR Forum engages world class technical, business and government leaders from EMEA,
Asia and the Americas, at all levels of the wireless industry's value chain. These members are
committed to solving their customers' communications problems through families of radio
devices that support a broad range of disparate wireless networks, evolving standards, and the
addition of value added services. The dedication to promoting the success of next generation
radio technologies that will inherently support software defined and cognitive radio (CR)
capabilities is at the foundation of the Forum. Through its collective industry strength the Forum
can support the adoption of SDR technologies through the value chain through advocacy,
opportunity development, commercialization and education.
Software Defined Radio - Related Technologies
SDR can act as a key enabling technology for a variety of other reconfigurable radio equipments
commonly discussed in the advanced wireless market.3
While SDR is not required to implement
any of these radio types, SDR technologies can provide these types of radio with the flexibility
necessary for them to achieve their full potential, the benefits of which can help to reduce cost
and increase system efficiencies:
Adaptive Radio
Adaptive radio is radio in which
communications systems have a means of
monitoring their own performance and
modifying their operating parameters to
improve this performance. The use of SDR
technologies in an adaptive radio system
enables greater degrees of freedom in
adaptation, and thus
higher levels of performance and better
quality of service in a communications link.
Cognitive Radio
Cognitive radio is radio in which
communication systems are aware of their
internal state and environment, such as
location and utilization on RF frequency
spectrum at that location. They can make
decisions about their radio operating
behaviour by mapping that information
against predefined objectives.
Cognitive radio is further defined by many to utilize Software Defined Radio, Adaptive Radio,
and other technologies to automatically adjust its behaviour or operations to achieve desired
3
http://www.sdrforum.org/pages/documentLibrary/documents/SDRF-06-R-0011-V1_0_0.pdf
Venn diagram illustrating relationship between
associated advanced wireless technologies
6. objectives. The utilization of these elements is critical in allowing end-users to make optimal use
of available frequency spectrum and wireless networks with a common set of radio hardware.
As noted earlier, this will reduce cost to the end-user while allowing him or her to communicate
with whomever they need whenever they need to and in whatever manner is appropriate.
Intelligent Radio
Intelligent radio is cognitive radio that is capable of machine learning. This allows the cognitive
radio to improve the ways in which it adapts to changes in performance and environment to
better serve the needs of the end user.
These types of radio adaptive radio, cognitive radio and intelligent radio do not necessarily
define a single piece of equipment, but may instead incorporate components that are spread
across an entire network.