Automatic equipment identification (AEI) is an electronic recognition system in use with the North American

railroad Rail transport (also known as train transport) is a means of transport that transfers passengers and goods on wheeled vehicles running on rails, which are incorporated in tracks. In contrast to road transport, where the vehicles run on a pre ...

industry. Consisting of passive tags mounted on each side of

rolling stock The term rolling stock in the rail transport industry refers to railway vehicles, including both powered and unpowered vehicles: for example, locomotives, freight and passenger cars (or coaches), and non-revenue cars. Passenger vehicles can ...

and active trackside readers, AEI uses RF technology to identify railroad equipment while en route. AEIreader

History

Predecessor systems

In the late 1960s, railroads in North America began searching for a system that would allow them to automatically identify rail cars and other rolling stock. Through the efforts of the

Association of American Railroads The Association of American Railroads (AAR) is an industry trade group representing primarily the major freight Rail transport, railroads of North America (Canada, Mexico and the United States). Amtrak and some regional Commuter rail in North Am ...

(AAR), a number of companies developed automatic car identification (ACI) systems. The AAR selected four systems for extensive field tests. General Electric developed an RFID system, ABEX a microwave system, Wabco a black and white

barcode A barcode or bar code is a method of representing data in a visual, machine-readable form. Initially, barcodes represented data by varying the widths, spacings and sizes of parallel lines. These barcodes, now commonly referred to as linear or o ...

system, and General Telephone and Electronics (GTE) a color barcode system called KarTrak. The RFID system used a tag mounted under the rail car and an interrogator installed between the rails. The other three systems had labels that were mounted on each side of the rail car and a trackside scanner. ACI plate 1

After the initial field tests, the ABEX, Wabco, and the GTE KarTrak ACI systems were selected for a head-to-head accuracy test on the Pennsylvania Railroad, at Spruce Creek PA. The KarTrak system was declared the winner and selected by the AAR as the standard. The KarTrak system was abandoned by the late 1970s. Because of this failure, the railroad industry did not seriously search for another system to identify rail cars until the mid-1980s.

Development

Burlington Northern The Burlington Northern Railroad was a United States-based railroad company formed from a merger of four major U.S. railroads. Burlington Northern operated between 1970 and 1996. Its historical lineage begins in the earliest days of railroadin ...

was the first railroad in North America to renew the search for an effective identification system. BN had been closely following the efforts of various

maritime Maritime may refer to: Geography * Maritime Alps, a mountain range in the southwestern part of the Alps * Maritime Region, a region in Togo * Maritime Southeast Asia * The Maritimes, the Canadian provinces of Nova Scotia, New Brunswick, and Prin ...

shipping companies, such as

American President Lines APL, formerly called American President Lines Ltd., is an American container shipping company that is a subsidiary of French shipping company CMA CGM. It operates an all-container ship fleet, including 9 U.S. flagged container vessels. In 1938, ...

, in their efforts to find a system to automatically identify containers. Based on the maritime companies' success with RF-based identification systems, Burlington Northern began a testing program in 1986. Burlington Northern initially asked nine vendors to present their identification systems. From this group of nine, Burlington Northern selected two systems for full-scale testing. The two vendors selected were

General Railway Signal General Railway Signal Company (GRS) was an American manufacturing company located in the Rochester, New York area. GRS was focused on railway signaling equipment, systems and services. The company was established in 1904 and became part of Alsto ...

(GRS) and

Union Switch & Signal Union Switch & Signal (commonly referred to as US&S) was an American company based in Pittsburgh, Pennsylvania, which focused on railway signaling equipment, systems and services. The company was acquired by Ansaldo STS (from 2015, Hitachi Rail ...

(US&S). The US&S system is manufactured by Amtech Corporation of

Dallas, Texas Dallas () is the third largest city in Texas and the largest city in the Dallas–Fort Worth metroplex, the fourth-largest metropolitan area in the United States at 7.5 million people. It is the largest city in and seat of Dallas County ...

. In January, 1988, Burlington Northern equipped 1,500 taconite (iron ore pellets) rail cars in northern

Minnesota Minnesota () is a state in the upper midwestern region of the United States. It is the 12th largest U.S. state in area and the 22nd most populous, with over 5.75 million residents. Minnesota is home to western prairies, now given over to ...

each with a GRS and an Amtech

transponder In telecommunications, a transponder is a device that, upon receiving a signal, emits a different signal in response. The term is a blend of ''transmitter'' and ''responder''. In air navigation or radio frequency identification, a flight trans ...

. Each vendor also installed three wayside reader sites. All tags were mounted on the sides of the rail cars. In August, 1988, the Burlington Northern Railroad presented a report on the results of their testing at the AAR Communication and Signal Annual Meeting. They stated that the accuracy of both systems over a six-month period was in excess of 99.99%. Based on the spectacular results from both systems, the Burlington Northern asked the AAR to form a committee to write an AEI standard for the North American rail industry, and suggested that the AAR use the current draft ISO standard for container identification as a starting point. A committee was formed by the AAR, charged with the development of an AEI standard. Railroads such as Norfolk Southern Railway,

Union Pacific Railroad The Union Pacific Railroad , legally Union Pacific Railroad Company and often called simply Union Pacific, is a freight-hauling railroad that operates 8,300 locomotives over routes in 23 U.S. states west of Chicago and New Orleans. Union Paci ...

, CSX Transportation and Canadian National Railway began their own testing programs and reported the results to the AAR's AEI Committee. In August, 1989, the AAR informed various identification system vendors that Amtech's identification technology had been selected as the AEI standard. By the fall of 1989, the AAR's AEI Committee had selected a technology and defined the tag's data format. The only major question still unresolved was whether to place tags on the sides of the rail cars or underneath, each approach having advantages and disadvantages in cost and maintainability. It was finally decided by the AEI Committee in the summer of 1990 that a tag would be mounted on each side of each car. AEItag

In July, 1990, the AAR Committee on Car Service sent a resolution to the O-T General Committee of the AAR to set a mandatory implementation date when all rail cars in interchange service would be tagged. The O-T General Committee is the highest operating committee within the AAR. The O-T General Committee requested that the AEI Committee perform a cost/benefit analysis on mandatory AEI implementation and recommend an implementation schedule. In October, 1990, the O-T General Committee approved the recommended AEI voluntary standard. With these recommendations, in August, 1991, the O-T General Committee of the Association of American Railroads voted to make the AEI standard mandatory. The mandatory vote was ratified by the AAR Board of Directors at their meeting in September, 1991. The mandatory period started on 1 March 1992, and ended on 31 December, 1994. By the end of this period all 1.4 million rail cars in North American interchange service were to be tagged. As part of the AAR's adoption of a standard based on Amtech technology, AAR required that Amtech license that technology. At the time of the AAR's 1991 mandate, six vendors sold AEI site equipment. Those vendors were US&S, Safetran, Harmon, VideoMasters, CCTC International in partnership with IBM, and Southern Technologies. As of August 2007, only two of these vendors remain, SAIC (formerly VideoMasters) and Southern Technologies.

Usage

As of 31 December 1994, Amtech had shipped over 3.1 million tags to railways in North America. The AAR reported that over 95% of the North American rail car fleet was tagged. Over 3,000 readers have been installed by the railways in North America as of the end of 2000. Amtech was bought by TransCore. TransCore is today the most important producer of RFID tags for rail in the world. The AAR's S-918 specifications outline ten recommended frequencies ranging from 902.250 to 921.500

MHz The hertz (symbol: Hz) is the unit of frequency in the International System of Units (SI), equivalent to one event (or cycle) per second. The hertz is an SI derived unit whose expression in terms of SI base units is s−1, meaning that one he ...

, depending on the location of the reading device (in a yard or trackside), with a nominal transmitting power of 2.0 Watts (measured at the transmitter).

References

* {{cite web , url=http://trn.trains.com/railroads/abcs-of-railroading/2006/05/aei-data-tags-and-readers , title=AEI data tags and readers , work=TRAINS Magazine , author=Keith Thompson , date=May 1, 2006 , publisher=www.trains.com , access-date=2016-04-18

External links

ACI
A description of the earlier ACI

barcode system DX (Digital indeX) encoding is an ANSI and I3A standard, originally introduced by Kodak in March 1983, for marking 135 and APS photographic film and film cartridges. It consists of several parts, a latent image DX film edge barcode on the film be ...

Intertech Rail

Transcore

Epix
Rail technologies Automatic identification and data capture