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The IERS and Adjustments to Coordinated Universal Time
Brian Luzum
1U.S. Naval Observatory, IERS Directing Board Chair, brian.luzum@usno.navy.mil
Abstract
The International Earth Rotation and Reference Systems Service (IERS) plays a critical role in determining the relationship between Coordinated Universal Time (UTC) and the variable Earth rotation (UT1). Earth orientation parameters (EOPs) that describe the relationship between UT1 and UTC can be determined very accurately with low latency. For real-time users, EOP predictions are provided. The IERS EOP products are available through a variety of methods. The IERS continues to evolve to meet the future needs of its users.
1. Background
The International Earth Rotation and Reference Systems Service (IERS) was established by the International Astronomical Union (IAU) and the International Union of Geodesy and Geophysics (IUGG) in 1987. It began operations on 1 January 1988 and since then, the IERS has been providing the international community with:
• the International Celestial Reference System and its realization, the International Celestial Reference Frame (ICRF);
• the International Terrestrial Reference System and its realization, the International Terrestrial Reference Frame (ITRF);
• Earth orientation parameters (EOPs) that are used to transform between the ICRF and the ITRF; • Conventions (i.e., standards, models, and constants) used in generating and using reference frames and EOPs; • Geophysical
 data
 to
 study
 and
 understand
 variations
 in
 the
 reference
 frames
 and
 the
 Earths
 orientation.
2. Time and Earth Rotation
The IERS plays a significant role in the formation of Coordinated Universal Time (UTC) through its determination of EOPs. In particular, the IERS provides the measures and forecasts of a quantity called UT1UTC. That quantity describes the difference between uniform time, as provided by atomic clocks contributing to the UTC timescale, and the variable Earth rotation angle which is related to UT1.
UTC is formulated by the Bureau International des Poids et Mesures (BIPM) using time comparisons obtained from atomic clocks and is the standard for everyday time usage worldwide. Precise time, such as that made available through UTC, is used in applications as wide ranging as navigation, communication, computer network synchronization, and transaction time tagging. It is a critical element of todays infrastructure. Modern metrological technology permits the accuracy of UTC to be measured in nanoseconds (billionths of a second).
Historically, the Earths rotation was used to calibrate clocks, but in the 1930s clock technology had advanced to the point that the stability of clocks allowed detection of the variations in the Earths rotation. Tides and changes in weather and ocean currents are among the causes of variations in the Earths rotational speed. These effects are only partially predictable necessitating observational measurements to be made on a nearly daily basis. Currently, the Earths rotation is measured using a worldwide radio telescope network through a technique called Very Long Baseline Interferometry (VLBI) (see http:// http://space-geodesy.nasa.gov/multimedia/VLBIHistoryVideo.html for a brief explanation of VLBI). By fixing the radio antennas to the Earth and observing quasars (distant radio sources), UT1 can be measured to an accuracy of tens of microseconds (millionths of a second).
3. Leap Seconds
Report Documentation Page
Form Approved OMB No. 0704-0188
Public reporting burden for the collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. Send comments regarding this burden estimate or any other aspect of this collection of information, including suggestions for reducing this burden, to Washington Headquarters Services, Directorate for Information Operations and Reports, 1215 Jefferson Davis Highway, Suite 1204, Arlington VA 22202-4302. Respondents should be aware that notwithstanding any other provision of law, no person shall be subject to a penalty for failing to comply with a collection of information if it does not display a currently valid OMB control number.
1. REPORT DATE
2014
2. REPORT TYPE
3. DATES COVERED
00-00-2014 to 00-00-2014
4. TITLE AND SUBTITLE
The IERS and Adjustments to Coordinated Universal Time
6. AUTHOR(S)
7. PERFORMING ORGANIZATION NAME(S) AND ADDRESS(ES)
U.S. Naval Observatory, ,Washington,,DC, 20392
5a. CONTRACT NUMBER 5b. GRANT NUMBER 5c. PROGRAM ELEMENT NUMBER 5d. PROJECT NUMBER 5e. TASK NUMBER 5f. WORK UNIT NUMBER 8. PERFORMING ORGANIZATION REPORT NUMBER
9. SPONSORING/MONITORING AGENCY NAME(S) AND ADDRESS(ES)
12. DISTRIBUTION/AVAILABILITY STATEMENT
Approved for public release; distribution unlimited
10. SPONSOR/MONITORS ACRONYM(S)
11. SPONSOR/MONITORS REPORT NUMBER(S)
13. SUPPLEMENTARY NOTES
General Assembly and Scientific Symposium (URSI GASS), 2014 XXXIth URSI, 16-23 Aug. 2014, Beijing, China
14. ABSTRACT
15. SUBJECT TERMS 16. SECURITY CLASSIFICATION OF:
a. REPORT
unclassified
b. ABSTRACT
unclassified
c. THIS PAGE
unclassified
17. LIMITATION OF ABSTRACT
Same as Report (SAR)
18. NUMBER OF PAGES
3
19a. NAME OF RESPONSIBLE PERSON
Standard Form 298 (Rev. 8-98)
Prescribed by ANSI Std Z39-18
In an effort to provide low-precision UT1 information through UTC, the International Telecommunications Union (ITU) redefined UTC in 1972 by instituting occasional one second adjustment, called leap seconds, to UTC so that |UT1UTC| will never exceed one second. According to ITU-R TF-460.6:
• “A positive or negative leap-second should be the last second of a UTC month, but first preference is given to the end of December and June, and second preference to the end of March and September.”
• “A positive leap-second begins at 23h 59m 60s and ends at 0h 0m 0s of the first day of the following month. In the case of a negative leap-second, 23h 59m 58s will be followed by 0h 0m 0s of the first day of the following month.”
• “The IERS should decide upon and announce the introduction of the leap-second, such as an announcement to be made at least eight weeks in advance.”
The role of the IERS in determining when to insert leap seconds is a natural extension of its responsibility for monitoring and predicting the quantity UT1UTC. Since 1972, there have been 25 positive leap seconds.
By keeping the difference between UT1 and UTC less than one second allows those who need only low-accuracy values of UT1 to approximate UT1 with UTC to one-second accuracy. However, for most modern applications, this one-second accuracy is not sufficient; these users rely on the IERS to provide estimates of the difference between UT1 and UTC for real-time applications. The current accuracy of IERS real-time UT1UTC is more than four orders of magnitude better than can be obtained by assuming UT1≈UTC.
4. IERS Products
IAU and IUGG established the IERS to coordinate the observations of all Earth orientation components. As part of this process, the IERS produces a number of EOP products on different time scales. For real-time users, the IERS combines EOP observations to create daily and four-times-per-day solutions as well as EOP predictions up to a year in advance (http://maia.usno.navy.mil). All IERS products are available free of charge through different various computer transfer protocol.
A complete list of IERS products is available at http://www.iers.org. Among these products are the conventional algorithms and software, published as the IERS Conventions, that users can implement in order to utilize EOP data. All of these IERS Conventions are developed and reviewed by subject matter experts and utilized regularly in geodetic applications, which helps to ensure their quality. These IERS Conventions are made available free of charge through the web sites at http://tai.bipm.org/iers and http://maia.usno.navy.mil/conv2010.
For users that want leap second information, the IERS Bulletin C announces upcoming leap seconds (see http://hpiers.obspm.fr/iers/bul/bulc/bulletinc.dat). In general, the Bulletin C is produced in January and July and announces whether a leap second will be inserted within the next six months. Note that the ITU requires only an announcement “8 weeks in advance” of the potential leap second event.
5. Future Considerations
The IERS continues to look to the future to determine what products will be required by users over the next decade. In May 2013, the IERS held a retreat to plan future products and operations (see http://www.iers.org/nn_128276/IERS/EN/Organization/Workshops/Retreat2013.html). It is initiating plans to create new products and incorporate newer forms of input data. Among those plans is the delivery of real-time EOPs by a transfer protocol to be determined, which would provide UT1 data in a means compatible with UTC dissemination. A real-time UT1 product would provide a straightforward transition path for some users that approximate UT1 with UTC. It also has the advantage that it would provide no-cost UT1 information to UTC users with an improvement of four orders of magnitude in data accuracy.
6. Summary
The IERS has provided data, algorithms, software, and expertise to the scientific and operational communities for more than twenty-five years. To ensure that the IERS products continue to meet the requirements of users into the future, the IERS plans to create new products, using new data, and to deliver products through new methods of data dissemination. The IERS will continue to work with users to provide the needed information to support both scientific and operational endeavors.