Electronic Data Interchange

Electronic Data Interchange (EDI) refers to the structured transmission of data between organizations by electronic means. It is more than mere E-mail; for instance, organizations might replace bills of lading and even checks with appropriate EDI messages. It also refers specifically to a family of standards, including the X12 series. However, EDI also exhibits its pre-Internet roots, and the standards tend to focus on ASCII-formatted single messages rather than the whole sequence of conditions and exchanges that make up an inter-organization business process.

In 1992, a survey of Canadian businesses found at least 140 that had adopted some form of EDI, but that many (in the sample) " [had] not benefited from implementing EDI, and that they [had] in fact been disadvantaged by it."cite web
last = Bergeron
first = François
authorlink = François Bergeron
coauthors = Louis Raymond
title = The advantages of electronic data interchange
work = ACM SIGMIS Database
url = http://doi.acm.org/10.1145/146553.146556
pages = 19..31
year = 1992

The National Institute of Standards and Technology in a 1996 publication [http://www.itl.nist.gov/fipspubs/fip161-2.htm] defines Electronic Data Interchange as "the computer-to-computer interchange of strictly formatted messages that represent documents other than monetary instruments. EDI implies a sequence of messages between two parties, either of whom may serve as originator or recipient. The formatted data representing the documents may be transmitted from originator to recipient via telecommunications or physically transported on electronic storage media.". It goes on further to say that "In EDI, the usual processing of received messages is by computer only. Human intervention in the processing of a received message is typically intended only for error conditions, for quality review, and for special situations. For example, the transmission of binary or textual data is not EDI as defined here unless the data are treated as one or more data elements of an EDI message and are not normally intended for human interpretation as part of online data processing."cite web
last = Kantor
first = Michael
authorlink = Michael Kantor
coauthors = James H. Burrows
work =
publisher = National Institute of Standards and Technology
date = 1996-04-29
url = http://www.itl.nist.gov/fipspubs/fip161-2.htm
format =
doi =
accessdate = 2008-05-13

EDI can be formally defined as 'The transfer of structured data, by agreed message standards, from one computer system to another without human intervention'. Most other definitions used are variations on this theme.Even in this era of technologies such as XML web services, the Internet and the World Wide Web, EDI is still the data format used by the vast majority of electronic commerce transactions in the world.


Generally speaking, EDI is considered to be a technical representation of a business conversation between two entities, either internal or external. Note, there is a perception that "EDI" constitutes the entire electronic data interchange paradigm, including the transmission, message flow, document format, and software used to interpret the documents. EDI is considered to describe the rigorously standardized format of electronic documents.

The EDI standards were designed to be independent of communication and software technologies. EDI can be transmitted using any methodology agreed to by the sender and recipient. This includes a variety of technologies, including modem (asynchronous, and bisynchronous), FTP, Email, HTTP, AS1, AS2, etc. It is important to differentiate between the EDI documents and the methods for transmitting them. When they compared the bisynchronous protocol 2400 bit/s modems, CLEO devices, and value-added networks used to transmit EDI documents to transmitting via the Internet, some people equated the non-Internet technologies with EDI and predicted erroneously that EDI itself would be replaced along with the non-Internet technologies. These non-internet transmission methods are being replaced by Internet Protocols such as FTP, telnet, and E-mail, but the EDI documents themselves still remain.

As more trading partners use the Internet for transmission, standards have emerged. In 2002, the IETF published RFC 3335, offering a standardized, secure method of transferring EDI data via e-mail. On July 12th, 2005, an IETF working group ratified [http://www.ietf.org/rfc/rfc4130.txt RFC4130] for MIME-based HTTP EDIINT (aka. AS2) transfers, and is preparing similar documents for FTP transfers (aka. [http://www.ietf.org/rfc/rfc4823.txt AS3] ). While some EDI transmission has moved to these newer protocols the providers of the value-added networks remain active.

EDI documents generally contain the same information that would normally be found in a paper document used for the same organizational function. For example an EDI 940 ship-from-warehouse order is used by a manufacturer to tell a warehouse to ship product to a retailer. It typically has a ship to address, bill to address, a list of product numbers (usually a UPC code) and quantities. It may have other information if the parties agree to include it. However, EDI is not confined to just business data related to trade but encompasses all fields such as medicine (e.g., patient records and laboratory results), transport (e.g., container and modal information), engineering and construction, etc. In some cases, EDI will be used to create a new business information flow (that was not a paper flow before). This is the case in the Advanced Shipment Notification (856) which was designed to inform the receiver of a shipment, the goods to be received and how the goods are packaged.

There are four major sets of EDI standards:

* The UN-recommended UN/EDIFACT is the only international standard and is predominant outside of North America.
* The US standard ANSI ASC X12 (X12) is predominant in North America.
* The TRADACOMS standard developed by the ANA (Article Numbering Association) is predominant in the UK retail industry.
* The ODETTE standard used within the European automotive industry All of these standards first appeared in the early to mid 1980s. The standards prescribe the formats, character sets, and data elements used in the exchange of business documents and forms. The complete X12 Document List includes all major business documents, including purchase orders (called "ORDERS" in UN/EDIFACT and an "850" in X12) and invoices (called "INVOIC" in UN/EDIFACT and an "810" in X12).

The EDI standard says which pieces of information are mandatory for a particular document, which pieces are optional and give the rules for the structure of the document. The standards are like building codes. Just as two kitchens can be built "to code" but look completely different, two EDI documents can follow the same standard and contain different sets of information. For example a food company may indicate a product's expiration date while a clothing manufacturer would choose to send color and size information.

Standards are generally updated each year.


Organizations that send or receive documents between each other are referred to as "trading partners" in EDI terminology. The trading partners agree on the specific information to be transmitted and how it should be used. This is done in human readable specifications (also called Message Implementation Guidelines). While the standards are analogous to building codes, the specifications are analogous to blue prints. (The specification may also be called a mapping but the term mapping is typically reserved for specific machine readable instructions given to the translation software.) Larger trading "hubs" have existing Message Implementation Guidelines which mirror their business processes for processing EDI and they are usually unwilling to modify their EDI business practices to meet the needs of their trading partners. Often in a large company these EDI guidelines will be written to be generic enough to be used by different branches or divisions and therefore will contain information not needed for a particular business document exchange. For other large companies, they may create separate EDI guidelines for each branch/division.


Trading partners are free to use any method for the transmission of documents. In the past one of the more popular methods was the usage of a bisync modem to communicate through a Value Added Network (VAN). Some organizations have used direct modem to modem connections and Bulletin Board Systems (BBS), and recently there has been a move towards using some of the many Internet protocols for transmission, but most EDI is still transmitted using a VAN. In the healthcare industry, a VAN is referred to as a "Clearinghouse".

Value Added Networks

In the most basic form, a VAN (Valued Added Network) acts as a regional post office. They receive transactions, examine the 'From' and the 'To' information, and route the transaction to the final recipient. VANs provide a number of additional services, e.g. retransmitting documents, providing third party audit information, acting as a gateway for different transmission methods, and handling telecommunications support. Because of these and other services VANs provide, businesses frequently use a VAN even when both trading partners are using Internet-based protocols. Healthcare clearinghouses perform many of the same functions as a VAN, but have additional legal restrictions that govern protected healthcare information.

VANs also provide an advantage with certificate replacement in AS2 transmissions. Because each node in a traditionally business-related AS2 transmission usually involves a security certificate, routing a large number of partners through a VAN can make certificate replacement much easier.


Until recently, the Internet transmission was handled by nonstandard methods between trading partners usually involving FTP or email attachments. There are also standards for embedding EDI documents into XML. Many organizations are migrating to this protocol to reduce costs. For example, Wal-Mart is now requiring its trading partners to switch to the AS2 protocol ( [http://walmartstores.com/Suppliers/248.aspx Wal-Mart EDI Requirement] ).

AS2 (Applicability Statement 2) is the draft specification standard by which vendor applications communicate EDI or other business-to-business data (such as XML) over the Internet using HTTP, a standard used by the World Wide Web. AS2 provides security for the transport payload through digital signatures and data encryption, and ensures reliable, non-repudiable delivery through the use of receipts.

Interpreting data

Often missing from the EDI specifications (referred to as EDI Implementation Guidelines) are real world descriptions of how the information should be interpreted by the business receiving it. For example, suppose candy is packaged in a large box that contains 5 display boxes and each display box contains 24 boxes of candy packaged for the consumer. If an EDI document says to ship 10 boxes of candy it may not be clear whether to ship 10 consumer packaged boxes, 240 consumer packaged boxes or 1200 consumer packaged boxes. It is not enough for two parties to agree to use a particular qualifier indicating case, pack, box or each; they must also agree on what that particular qualifier means.

"EDI translation software" provides the interface between internal systems and the EDI format sent/received. For an "inbound" document the EDI solution will receive the file (either via a Value Added Network or directly using protocols such as FTP or AS2), take the received EDI file (commonly referred to as a "mailbag"), validate that the trading partner who is sending the file is a valid trading partner, that the structure of the file meets the EDI standards and that the individual fields of information conforms to the agreed upon standards. Typically the translator will either create a file of either fixed length, variable length or XML tagged format or "print" the received EDI document (for non-integrated EDI environments). The next step is to convert/transform the file that the translator creates into a format that can be imported into a company's back-end business systems or ERP. This can be accomplished by using a custom program, an integrated proprietary "mapper" or to use an integrated standards based graphical "mapper" using a standard data transformation language such as XSLT. The final step is to import the transformed file (or database) into the company's back-end enterprise resource planning (ERP).

For an "outbound" document the process for integrated EDI is to export a file (or read a database) from a company's back-end ERP, transform the file to the appropriate format for the translator. The translation software will then "validate" the EDI file sent to ensure that it meets the standard agreed upon by the trading partners, convert the file into "EDI" format (adding in the appropriate identifiers and control structures) and send the file to the trading partner (using the appropriate communications protocol).

Another critical component of any EDI translation software is a complete "audit" of all the steps to move business documents between trading partners. The audit ensures that any transaction (which in reality is a business document) can be tracked to ensure that they are not lost. In case of a retailer sending a Purchase Order to a supplier, if the Purchase Order is "lost" anywhere in the business process, the effect is devastating to both businesses. To the supplier, they do not fulfill the order as they have not received it thereby losing business and damaging the business relationship with their retail client. For the retailer, they have a stock outage and the effect is lost sales, reduced customer service and ultimately lower profits.

In EDI terminology "inbound" and "outbound" refer to the direction of transmission of an EDI document in relation to a particular system, not the direction of merchandise, money or other things represented by the document. For example, an EDI document that tells a warehouse to perform an outbound shipment is an inbound document in relation to the warehouse computer system. It is an outbound document in relation to the manufacturer or dealer that transmitted the document.

Advantages of using EDI over paper systems

EDI and other similar technologies save a company money by providing an alternative to, or replacing information flows that require a great deal of human interaction and materials such as paper documents, meetings, faxes, etc. Even when paper documents are maintained in parallel with EDI exchange, e.g. printed shipping manifests, electronic exchange and the use of data from that exchange reduces the handling costs of sorting, distributing, organizing, and searching paper documents. EDI and similar technologies allow a company to take advantage of the benefits of storing and manipulating data electronically without the cost of manual entry. Another advantage of EDI is reduced errors, such as shipping and billing errors, because EDI eliminates the need to rekey documents on the destination side. One very important advantage of EDI over paper documents is the speed in which the trading partner receives and incorporates the information into their system thus greatly reducing cycle times. For this reason, EDI can be an important component of just-in-time production systems.

Barriers to implementation

There are a few barriers to adopting electronic data interchange. One of the most significant barriers is the accompanying business process change. Existing business processes built around slow paper handling may not be suited for EDI and would require changes to accommodate automated processing of business documents. For example, a business may receive the bulk of their goods by 1 or 2 day shipping and all of their invoices by mail. The existing process may therefore assume that goods are typically received before the invoice. With EDI, the invoice will typically be sent when the goods ship and will therefore require a process that handles large numbers of invoices whose corresponding goods have not yet been received.

Another significant barrier is the cost in time and money in the initial set-up. The preliminary expenses and time that arise from the implementation, customization and training can be costly and therefore may discourage some businesses. The key is to determine what method of integration is right for your company which will determine the cost of implementation. For a business that only receives one P.O. per year from a client, fully integrated EDI may not make economic sense. In this case, businesses may implement inexpensive "rip and read" solutions or use outsourced EDI solutions provided by EDI "Service Bureaus". For other businesses, the implementation of an integrated EDI solution may be necessary as increases in trading volumes brought on by EDI force them to re-implement their order processing business processes.

The key hindrance to a successful implementation of EDI is the perception many businesses have of the nature of EDI. Many view EDI from the technical perspective that EDI is a data format; it would be more accurate to take the business view that EDI is a system for exchanging business documents with external entities, and integrating the data from those documents into the company's internal systems. Successful implementations of EDI take into account the effect externally generated information will have on their internal systems and validate the business information received. For example, allowing a supplier to update a retailer's Accounts Payables system without appropriate checks and balances would be a recipe for disaster. Businesses new to the implementation of EDI should take pains to avoid such pitfalls.

Increased efficiency and cost savings drive the adoption of EDI for most trading partners. But even if a company would not choose to use EDI on their own, pressures from larger trading partners (called hubs) often force smaller trading partners to use EDI. An example of this is Wal-Mart`s insistence on using EDI with all of its trading partners; any partner not willing to use EDI with Wal-Mart will not be able to do business with the company.cite web
title = Wal Mart EDI & Wal Mart RFID
authorlink = Wal-Mart-EDI

Examples of Disadvantages of EDI

United States Health Care Systems

The United States` health care system consists of thousands of different companies and other entities. In 1996, the Health Insurance Portability and Accountability Act (HIPAA) was enacted. In short, it set down standard transaction sets for specific EDI transactions and mandated electronic support for every insurance company in the United States for these transactions. While the benefits of EDI are numerous and only increase with increased volume, the drawbacks, though not directly related to EDI itself, include managerial problems in the support, maintenance and implementation of EDI transactions.
# Though an EDI standard exists for health care transactions, the standard allows for variation between implementation, which gives way to the existence of Companion Guides, detailing each company's variation [http://www.nd.gov/dhs/services/medicalserv/medicaid/docs/4010a1-276-nd-medicaid-companion-guide.pdf] , North Dakota Medicaid Companion Guide] .
# Each entity may have a different method of delivery, ranging from dial-up BBS systems [http://dhs.wisconsin.gov/medicaid9/edi/edi_enroll_compguides.htm] , Wisconsin Medicaid EDI Information] ; mailing hard media such as a CD-ROM or tape backup; or FTP [http://www.hhs.state.ne.us/med/edireq.htm] , Nebraska Medicaid Submission Requirements] . Some entities may elect not to support different methods of delivery depending on a trading partner`s expected volume.
# Due to varying implementation on nearly all points of EDI including, contact, registration, submission and testing of transactions between different entities in US health care, the existence of EDI clearinghouses has sprung up. An EDI clearinghouse is one entity agreeing to act as a middle-man between multiple entities and their end-clients, such as between medical providers and insurance companies they accept coverage from. They may act as a value-added network and attempt to conform their different supported entities to one submission standard. One such example is Emdeon. An EDI clearinghouse will not cover all health care entities, though they may cover a large portion, and they may not cover all HIPAA-mandated transactions for all of their supported entities.
# Because of the above points, one single computer application cannot handle all health care entities. Though this may not be necessary, it can lead to an obvious management headache as a company attempts to register itself with various EDI partners.This all comes at a massive cost in time and management as a company may attempt to support a broad range of transactions with a broad range of entities. This example is an extension of the lack of strict standards across implementations, transactions and methods.

ee also

* B2
* cXML
* Xcbl
* E-business
* Enterprise application integration
* Facsimile
* HL7
* RosettaNet
* Standard Carrier Alpha Codes
* Workgroup for Electronic Data Interchange
* X12
* X12 Document List
* X12 EDIFACT Mapping
* Freight payment service


External links

* [http://www.doli.state.mn.us/edi.html EDI Introduction] — Minnesota Department of Labor & Industry website.
* [http://www.the-financedirector.com/features/feature1420/#adEnd E-Procurement - Electronic Data Integration Comes of Age] - Article from Finance Director Europe Journal
* [http://www.anu.edu.au/people/Roger.Clarke/EC/EDIIntro.html EDI: An Introduction] — a visiting fellow on Australian National University website.
* [http://www.itl.nist.gov/fipspubs/fip161-2.htm Federal Standard Electronic Data Interchange]
* [http://www.wpc-edi.org Washington Publishing Company]

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