Topic
Time standard
About: Time standard is a research topic. Over the lifetime, 198 publications have been published within this topic receiving 2181 citations. The topic is also known as: scale of time.
Papers published on a yearly basis
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Papers
TL;DR: In this article, the authors present a general summary of factors that must be considered in order to achieve timing precisions ranging from 15 minutes to 1 μs, and provide software tools that, in principal, allow one to calculate BJDTDB to a precision of 1 µs for any target from anywhere on Earth or from any spacecraft.
Abstract: As the quality and quantity of astrophysical data continue to improve, the precision with which certain astrophysical events can be timed becomes limited not by the data themselves, but by the manner, standard, and uniformity with which time itself is referenced. While some areas of astronomy (most notably pulsar studies) have required absolute time stamps with precisions of considerably better than 1 minute for many decades, recently new areas have crossed into this regime. In particular, in the exoplanet community, we have found that the (typically unspecified) time standards adopted by various groups can differ by as much as a minute. Left uncorrected, this ambiguity may be mistaken for transit timing variations and bias eccentricity measurements. We argue that, since the commonly-used Julian Date, as well as its heliocentric and barycentric counterparts, can be specified in several time standards, it is imperative that their time standards always be reported when accuracies of 1 minute are required. We summarize the rationale behind our recommendation to quote the site arrival time, in addition to using BJDTDB, the Barycentric Julian Date in the Barycentric Dynamical Time standard for any astrophysical event. The BJDTDB is the most practical absolute time stamp for extraterrestrial phenomena, and is ultimately limited by the properties of the target system. We compile a general summary of factors that must be considered in order to achieve timing precisions ranging from 15 minutes to 1 μs. Finally, we provide software tools that, in principal, allow one to calculate BJDTDB to a precision of 1 μs for any target from anywhere on Earth or from any spacecraft.
1,032 citations
Patent•
7 Apr 1997TL;DR: In this article, the GPS tracking system is turned off during most of the acquisition phase of reception to significantly reduce the on-time of the associated receiver front end, which is further reduced by use of very low power high accuracy time and frequency circuits in GPS based tracking units.
Abstract: A direct sequence spread spectrum signal processing system permits the receiver to be turned off during most of the acquisition phase of reception to significantly reduce the on time of the associated receiver front end. Power requirements are further reduced by use of very low power high accuracy time and frequency circuits in GPS based tracking units. The microprocessor based GPS tracking system is shut down almost all the time, using extremely little electrical power, and is powered up for very short periods of time at scheduled intervals by an extremely low power clock circuit with accuracy that varies with temperature. Each time the microprocessor is powered up, system temperature is recorded in memory. At times when the microprocessor is powered up, the GPS system is accessed and the GPS standard time is read. The difference between the low power clock circuit based time and the GPS based time is correlated with the recorded temperature history. A correction table, built from this data, provides a temperature history based correction to the low power clock based circuit without reference to the GPS system, and provides a highly accurate time standard. An additional table constructed in the microprocessor temperature compensates the local frequency standard used for frequency synthesis in satellite communication channels. This table is constructed by measuring offset between the calculated and actual synthesized frequency required to lock onto the satellite transmitted reference (pilot tone), and correlating this measured offset with the system ambient temperature.
92 citations
Patent•
15 Aug 2006TL;DR: In this paper, an apparatus and method is proposed to estimate a plurality of synchronized phasors at predetermined times referenced to an absolute time standard in an electrical power system, where a power system signal is acquired and sampled at a sampling interval rate based on a frequency of the signal to form signal samples.
Abstract: An apparatus and method estimates a plurality of synchronized phasors at predetermined times referenced to an absolute time standard in an electrical power system. The method includes acquiring and determining a frequency of a power system signal, sampling the power system signal at a sampling interval rate based on a frequency of the power system signal to form signal samples, and generating a plurality of acquisition time values based on an occurrence of each of the signal samples at a corresponding plurality of different times referenced to the absolute time standard. The method further includes adjusting a phasor of each of the signal samples based on a time difference between a corresponding selected acquisition time value and a predetermined time referenced to an absolute time standard to form the plurality of synchronized phasors.
79 citations
TL;DR: In this article, a computer-aided assembly sequence planning and evaluation system (ASPEN) was developed to automatically search all geometrically feasible sequences by decomposing solid models of a product.
50 citations
Patent•
23 Jun 2006TL;DR: In this paper, a client application displays time-series data values as a series of points on a time-line graph, including alphanumeric time labels specified in accordance with a designated time zone.
Abstract: A process control and manufacturing information database client application is disclosed displaying received time-series data in an unambiguous manner when a displayed range of time-series data includes a DST transition for a designated time zone for displaying the data. A data acquisition interface obtains timestamped time-series data values for an observed parameter from the process control and manufacturing information database. The data values are requested/received/stored by the client application, for example, according to the UTC time standard. The client application renders the timestamped time-series data values as a series of points on a time-line graph. The time-line graph includes alphanumeric time labels specified in accordance with a designated time zone. The display function renders the time-line graph without disruptions over a time span containing a Daylight Savings Time (DST) transition for the designated time zone.
49 citations
Related Topics (5)
Performance Metrics
| Year | Papers |
|---|---|
| 2021 | 2 |
| 2020 | 4 |
| 2019 | 8 |
| 2018 | 2 |
| 2017 | 4 |
| 2016 | 6 |