Space Traffic Management — Cambridge IELTS 18 Academic 2023 TEST 3 — IELTS Test

Cambridge IELTS 18 Academic 2023 TEST 3

Space Traffic Management

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(0:00) Part 4. You will hear part of a lecture for astronomy students about the need for a system (0:07) to manage satellites and other objects orbiting the Earth. First you have some time to look at (0:14) questions 31 to 40. Now listen carefully and answer questions 31 to 40.

In today's astronomy (1:16) lecture I'm going to talk about the need for a system to manage the movement of satellites (1:22) and other objects in orbit around the Earth. In other words, a space traffic management system. (1:30) We already have effective air traffic control systems that are used internationally to ensure (1:36) that planes navigate our skies safely.

Well, space traffic management is a similar concept (1:43) but focussing on the control of satellites. The aim of such a system would be to prevent (1:51) the danger of collisions in space between the objects in orbit around the Earth. (1:57) In order to do this we'd need to have a set of legal measures and we'd also have to develop (2:03) the technical systems to enable us to prevent such accidents.

But unfortunately at present (2:12) we don't actually have a space traffic management system that works. So why not? (2:19) What are the problems in developing such a system? Well for one thing satellites are relatively cheap (2:27) these days compared with how they were in the past, meaning that more people can afford to (2:33) put them into space. So there's a lot more of them out there and people aren't just launching (2:39) single satellites but whole constellations consisting of thousands of them designed to (2:46) work together.

So space is getting more crowded every day. But in spite of this one thing you may (2:55) be surprised to learn is that you can launch a satellite into space and once it's out there (3:02) it doesn't have to send back any information to Earth to allow its identification. So while we (3:09) have international systems for ensuring we know where the planes in our skies are and to prevent (3:16) them from colliding with one another, when it comes to the safety of satellites at present we don't (3:22) have anything like enough proper ways of tracking them.

And it isn't just entire satellites that we (3:30) need to consider. A greater threat is the huge amount of space debris in orbit around the Earth, (3:37) broken bits of satellite and junk from space stations and so on. And some of these are so (3:44) small that they can be very hard to identify but they can still be very dangerous.

In addition, (3:52) some operators may be unwilling to share information about the satellites they've launched. (3:58) For example, a satellite may be designed for military purposes or it may have been launched (4:05) for commercial reasons and the operators don't want competitors to have information about it. (4:11) And even if the operators are willing to provide it, the information isn't easy to collect.

Details (4:19) are needed about the object itself as well as about its location at a particular time. And (4:26) remember that a satellite isn't very big and it's likely to be moving at thousands of kilometres an (4:33) hour. We don't have any sensors that can constantly follow something moving so fast.

So all that the (4:42) scientists can do is to put forward a prediction concerning where the satellite is heading next. (4:54) So those are some of the problems that we're facing. Let's consider now some of the solutions (5:01) that have been suggested.

One key issue is the way in which information is dealt with. (5:08) We need more information but it also needs to be accessible at a global level so we need to (5:16) establish shared standards that we can all agree on for the way in which this information is (5:22) presented. We already do this in other areas of science so although this is a challenge, (5:29) it's not an impossible task.

Then as all this information's collected, it needs to be put (5:36) together so it can be used and that will involve creating a single database on which it can be (5:43) entered. As we continue to push forward new developments, congestion of the space environment (5:50) is only going to increase. To cope with this, we need to develop a system like the one I've (5:56) described to coordinate the work of the numerous spacecraft operators.

But it's also essential (6:04) that this system is one that establishes trust in the people that use it, both nationally and (6:10) at a global level. One interesting development... That is the end of part four. You now have one (6:22) minute to check your answers to part four.

Part 4 of 4

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