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The Fox Report Barry Fox’s technology column Got a sec? T he International Bureau of Weights and Measures wants to get rid of leap seconds. What are they? And why banish them? It’s all about time. The time it takes for the Earth to move round the Sun is not exactly 365 days. So, we have leap years. Every four years February gets an extra day to even things out. Slowing earth Likewise, the second was originally defined as a tiny fraction of the time it takes for the Earth to turn once on its axis. But the Earth’s rotational speed is not rigidly fixed. The length of the day is increasing by a few milliseconds a century – but why? If you have ever seen ‘ice ponds’ in a field, you have seen the reason why. The ponds are bowls in the ground caused by the weight of lingering balls of ice. A physicist friend calls it ‘post-glacial rebound’. ‘Remarkably’ he says, ‘10,000 years after the last Ice Age finished, the Earth’s crust is still re-bounding after the removal of the enormous weight of ice. Like an ice skater throwing out her arms, the planet has spun ever more slowly.’ All thanks to expansion and the conservation of angular momentum. Atomic time To reflect this lack of terrestrial precision in defining the second, in 1967 the second was re-defined by tying it to the vibration frequency of the caesium-133 atom in an atomic clock. In turn, the day has since been re-defined by tying it to the atomically defined second. Because the Earth’s rotation time varies unpredictably, our earthly time lords (The International Earth Rotation and Reference Systems Service (IERS) in Paris, France) have, since 1972, been adding a leap second whenever they thought it necessary. This has happened 27 times, on no particular day of the year. This random time warping would crash computers, power grids and satellite navigations systems were it not for the fact that they get their time from publicly accessible time signals, 10 which in turn derive from atomic clocks. Nevertheless, to avoid confusion, leap seconds will be abolished in around ten years’ time. NPL and time But what would happen if the publicly accessible time signals were suddenly lost or blocked? This is one of the topics now being researched by the UK’s NPL (National Physical Laboratory). The NPL occasionally opens its doors for press events and puts on a public relations show, with a few simple science demonstrations and presentations. I went along to one recently, hoping to plug big holes in my understanding of how so much of today’s technology relies on precise timekeeping – think GPS location, video time code, audio sampling frequencies and so on. NPL was founded in 1900 at Bushy House in Teddington by the Royal Society. It is now a commercial company, with a Chief Executive Officer, but is owned by the government Department for Science, Innovation and Technology. It’s home to a thousand scientists and engineers, and has the feel of a modern university campus. But, as I found out first-hand, impressive appearances can be misleading. (See the part-pain, part-farce footnote about what happened when I offered NPL’s Official Public Relations Coordinator and CIPR-accredited PR practitioner sight of my draft text, before publication, along with a few specific questions. Apart from being ludicrously slow to respond, NPL seemed mainly interested in injecting a dose of civilservice-speak semantics while quietly ripping out passages of likely reader interest – without identifying them and without offering explanation or justification. Only a few points were usefully handled and my technical queries were simply ignored.) Anyway, back to the NPL, and what do those thousand boffins at NPL actually do? I could broadly sum up NPL’s mission by quoting the open-day presenters as seeking, ‘measurement – independent and impartial’. However, NPL’s PR department now officially prefers to say, ‘to provide the measurement capability that underpins the UK’s prosperity and quality of life’. OK, so be it. What matters is that current research topics include ionising radiation, 5G, 6G, graphene, underwater acoustics, quantum physics, and time. Navigation and time It’s easy to forget that longitude measurement (ie, how far east/west you are) depends on knowing the time. Pendulum clocks don’t work at sea, which is why John Harrison spent 40 years building the no-pendulum clocks and watch which eventually won him the prize offered by the Longitude Act of 1714. Anyone interested should climb the steep hill in Greenwich Park and visit the observatory’s exhibition of clocks. These include all five of Harrison’s magnificent time measurement devices. You can also see the Greenwich Meridian, on which is based Greenwich Meantime, which dates from 1880. (And also, Sir Sandford Fleming’s global 24hour zones which start with Greenwich as zero longitude.) Simple modern clocks and watches rely on the way quartz resonates when an electric pulse is applied. But quartz materials vary, so their time does slightly too. Atoms from any one element, however, are all same, so an atomic clock based on caesium was developed in 1955. Atomic time became the reference standard in 1967, and in 1972 UTC (Co-ordinated Universal Time) replaced GMT. There are now 500 atomic clocks around world, some using hydrogen masers rather than caesium. UTC is disseminated (for instance from a transmitter in Rugby transmitting at 60kHz) and is used to control radio clocks, Internet time and NPL Time, a commercial time service that NPL sells and delivers by fibre to the business and financial sector. The newest generation of optical atomic clocks are accurate to around one second over the lifetime of the Practical Electronics | July | 2023 Universe. This precision means that losing leap seconds is now firmly on the cards, and will remove the last link between UTC and GMT. GPS vulnerability and time The GPS systems we all now rely on were originally developed for military use (notably, targeting missiles) but declassified for civilian use. GPS relies on time codes and the loss of a reliable signal can have serious consequences. For example, autonomous vehicles can’t function without GPS – missiles miss. Such loss of signal may be due to criminal or military jamming, terrorist attack, solar events (flares), building obstruction or unintentional RF interference. ‘Tetra 2-way radio is worst of all because the GPS signal is weak and ‘in the noise’’ explained a senior product manager at NPL. ‘The US is extremely worried about security. Donald Trump talked about the need for alternatives, and the recent jamming of drones in Ukraine has concentrated minds. The UK economy would lose £1bn over a five-day period if GPS were lost.’ Fibre is of course immune from jamming. But it’s vulnerable to workmen digging up the road. And fibre isn’t portable. One solution/idea is to use LEO (low earth orbiting) satellites to improve the robustness of time distribution. ‘Resiliency through diversity’ is the NPL approach. ‘The better the time, the better the data. No single solution can provide a fully resilient assured capability’. Arguably one of the most significant, and least talked about, research projects at Teddington is development of a miniature atomic clock which can provide ‘holdover’ – keeping precise time if the GPS signal is lost. Currently, the larger clocks can function with microsecond accuracy for around a month before time drift starts to compromise location accuracy. Fitting drones with atomic clocks could be a military game-changer. Very likely it’s already being done, but I suspect NPL regrets talking openly about it. Mystery time Sometimes it’s not clear where devices are getting their time from. For example, I still use one of the Joggler devices sold well over ten years ago by UK mobile phone operator and Internet service provider O2. Made by OpenPeak and powered by Ubuntu, the Joggler looked like (and worked as) a photo frame but also connected to the Internet and ran some Google Apps and simple games. Practical Electronics | July | 2023 Joggler was a commercial flop and most of the online functionality disappeared long ago. But my Joggler still connects to the Internet and works as a clock, getting its time code from some unknown service. The time refreshes after a reboot and correctly observes Summertime shifts. But it’s not a radio clock getting time off-air. Somehow, Joggler must still be connecting to some ghost time server, somewhere. NPL either doesn’t know, or does not want to say, where devices like old Jogglers are managing to find their time. NPL Coda Journalists are often criticised for not letting companies, or individuals, see articles ahead of publication. Some editors expressly forbid it. That’s not an attitude I support – fact-checking can help stop rubbish ending up in print or on the Internet. However, it’s true that there is a risk that the subject will take so long checking the draft and/or asking for unreasonable changes that deadlines are missed. Despite this, I thought it would be nice to offer NPL the opportunity to check what I’d written for PE for factual accuracy; and while they are at it, answer a couple of queries. I used NPL’s press contact form to offer sight of my draft and immediately got back an acknowledgement email assuring, ‘we are working to get back in touch with you as quickly as possible.’ Four days later NPL’s PRC (public relations coordinator) and CIPR-accredited PRP (PR practitioner) sprung into action with the re-assurance ‘Yes please! I can get it back to you fairly quickly too.’ I immediately sent the draft, but I heard nothing back so after eight days politely reminded. ‘Apologies for the delay’ said acronymheavy NPL’s PRC and CIPR-APRP, a day later ‘I’ve asked a colleague in the T&F department at NPL to review your article and answer your questions below. I will get back to you as soon as possible.’ After eight more days I’d heard nothing so politely reminded NPL that some three weeks had clocked up (ironically on the topic of time) ‘since my original contact and I am still waiting for NPL to comment.’ After another four days had elapsed when NPL’s PRC and CIPR-APRP offered, ‘Huge apologies for the delay. There has been a lot of colleagues out of the office recently. Let me follow this up now and I will get it back to you early this week.’ Silence and inaction reigned supreme, so after six weeks, or a full lunar month and a half, I spent the now princely price of a First Class Stamp on snail-mailing NPL’s CEO Dr Peter Thompson, with the suggestion, ‘If ever you are upset by any writing about NPL that you consider inaccurate, you might like to refer to this timeline.’ A week later an obviously embarrassed NPL staffer phoned to admit that NPL’s PR kingpin press contact had gone on leave, without finishing or delegating the job in hand and without even putting an auto-answer message on her email account. The ‘fact-checked’ draft finally arrived, with a couple of useful minor corrections, some semantic changes, chunks of text excised and my queries completely ignored. Initially, there was none of the customary highlighting used to identify changes in a document. When highlighting was added it somehow managed to miss the censored excisions. At that stage I gave up on NPL’s front-of-house press machine. Silver lining The upside to the whole time-wasting pantomime is that it will make a very good oven-baked rebuttal the next time anyone pushes that original question – ‘why don’t journalists check before publishing?’. NEW! 5-year collection 2017-2021 All 60 issues from Jan 2017 to Dec 2021 for just £44.95 PDF files ready for immediate download See page 6 for further details and other great back-issue offers. Purchase and download at: www.electronpublishing.com 11