And You Thought Daylight Savings Time Was Confusing: Computer Time For International Space Ventures

Daylight Savings Time for Space

You can thank Benjamin Franklin for the concept of Daylight Savings Time.  The story goes that in 1784, serving as Ambassador to France, that he awoke one morning at 6 a.m. and found many of the Parisians were still in bed with the shutters closed to keep out the light.  As a result, they were sleeping into the daylight hours and burning candles into the night.  Now, much of the United States, Canada, and Europe all embrace Daylight Savings Time.  So every fall and every spring we have to go through the whole “spring forward, fall back” scenario and adjust our clocks.  We all get the phone calls from Mom and the emails from work to remind us to reset our clocks.  And, of course, it still takes time for us to get to all the clocks around the house: the microwave, the stove, the bedroom clocks, the car stereo.  It can be a bit confusing at times, “It’s already 3 o’clock?…oh, I forgot to change that one.  It’s only 2.  I’ve still got an hour.”

Well, if you thought Daylight Savings Time is confusing wait till you see what Astronomers have to go through.

Computing time for international space flight and astronomy involves multiple time zones, time types, and computations.  There’s a wealth of different time schemes to go to including (but not limited to) Round-Trip Light Time and Transmission Time.  Here’s what NASA has to say:

“UTC, Coordinated Universal Time, is the world-wide scientific standard of timekeeping. It is based upon carefully maintained atomic clocks and is highly stable. Its rate does not change by more than about 100 picoseconds per day. The addition or subtraction of leap seconds, as necessary, at two opportunities every year adjusts UTC for irregularities in Earth’s rotation.

UTC is used by astronomers, navigators, the Deep Space Network (DSN), and other scientific disciplines. Its reference point is Greenwich, England: when it is midnight there on Earth’s prime meridian, it is midnight (00:00:00.000000) — “all balls” — UTC. The U.S. Naval Observatory website provides information on the derivation of UTC.

Universal Time also called Zulu (Z) time, was previously called Greenwich Mean Time, GMT. It is based on the imaginary “mean sun,” which averages out the effects on the length of the solar day caused by Earth’s slightly non-circular orbit about the sun. UT is not updated with leap seconds as is UTC. Its reference point is also Greenwich, England: when it is noon on the prime meridian, it is noon (12:00:00) UT.

It is common to see outdated references to GMT, even in currently operating flight projects. It is also common to encounter references to UT or GMT when the system actually in use is UTC, for example, “Uplink the command at 1801Z.”

Local time is UT adjusted for location around the Earth in time zones. Its reference point is one’s immediate locality: when it is 12:00:00 noon Pacific Time at JPL, it is 20:00:00 UTC, and 13:00:00 Mountain Time in Denver, Colorado. Many locations change between standard time and daylight saving time. Local time is also determined on other planets when needed.

Local time on another planet is conceived as the equivalent value of time for the Sun’s distance from the meridian, as it is on Earth. A planet that rotates more slowly than Earth would have an object in its sky at 1:00 local time move to 2:00 local time in more than an hour of Earth-clock time. Around 11:30 am or 12:30 pm at a particular location on Venus, the sun would be nearly overhead. At 5:00 pm at a particular location on Mars, the sun would be low in the west.

TRM, Transmission time is the UTC time of uplink from Earth. OWLT, One-Way Light Time is the elapsed time it takes for light, or a radio signal, to reach a spacecraft or other body from Earth (or vice versa). Knowledge of OWLT is maintained to an accuracy of milliseconds. OWLT varies continuously as the spacecraft’s distance from the Earth changes. Its reference points are the center of the Earth and the immediate position of a spacecraft or the center of a celestial body.

time enroute

SCET, Spacecraft Event Time is the UTC time onboard the spacecraft. It is equal to TRM + OWLT. ERT is equal to SCET + OWLT.

SCLK, Spacecraft Clock is the value of a counter onboard a spacecraft, described further in Chapter 11. SCLK has a nearly-direct relationship with SCET: it is the best possible on-board estimate of SCET. SCLK is not as constant and stable as the UTC-derived SCET. Its units of measurement are different from SCET.

Tracking and predicting the exact relationship between SCLK and SCET is accomplished by analyzing telemetered SCLK values and trends with respect to the UTC-derived SCET, and regularly producing and applying a SCLK/SCET coefficients file which tracks the gradual drift of SCLK versus SCET.

RTLT, Round-Trip Light Time is the elapsed time it takes for a signal to travel from Earth, be received and immediately transmitted or reflected by a spacecraft or other body, and return to the starting point. It is roughly equal to 2 x OWLT, but not exactly, because of the different amount of distance the signal must travel on each leg due to the constant motions of both Earth and spacecraft.

For reference, RTLT from here to the Moon is around 3 seconds, to the sun, about 17 minutes. Voyager 1’s RTLT at this writing in October 2000 is over 22 hours and increasing roughly an hour per year.”

Well, that sounds pretty complex and daunting to keep track of.
So next time you’re worried about having to reset all the clocks in your house just be glad that a Spacecraft Clock isn’t one you have to worry about.

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One thought on “And You Thought Daylight Savings Time Was Confusing: Computer Time For International Space Ventures

  1. Pingback: Amateur hour with Zulu time | The Mad Spaceball

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