Tag Archives: intelsat

[June 28, 1967] Around the World in Two Seconds (Our World Global Satellite Broadcast)


by Kaye Dee

I love how our world is drawing closer every day to some of the amazing futures that science fiction has spread before us. I’ve written before about the importance of satellite communications in connecting this divided planet. Just two days ago, 24 countries around the globe were linked together in the first world-spanning live satellite broadcast, titled – appropriately enough – Our World.

Our World's visual symbol incorporates a modernised version of da Vinci's "Vitruvian Man", with arms encircling the globe, and vertical and horizontal lines representing longitude and latitude

Down Under Comes Up Live – from a town with no television!
For us in Australia, being instantaneously connected to the rest of the world through phone and television is a major step in breaking the “tyranny of distance” that has shaped our national history. Our first Satellite Earth Station was opened just last October in Carnarvon, a remote township in Western Australia, whose only other connection to the rest of the world is a phone line. It’s no wonder NASA wanted to provide a satellite connection back to the United States for its tracking station located there, using the INTELSAT communications network. Just after the station opened, a mishap with the launch of the first INTELSAT II satellite (Blue Bird) on 26 October placed the satellite into the wrong orbit, providing an opportunity for the first satellite broadcast from Down Under.


SES Carnarvon's unusual antenna, one of only four that have been built for the INTELSAT network. Officially described a 42-foot aperture cassegrain-fed folded-horn antenna, you can see why it's nicknamed the “sugar scoop”

According to my friend at the Australian Broadcasting Commission (ABC), some hasty calculations revealed that short segments of television broadcast could be relayed to the United Kingdom via INTELSAT II in its unplanned elliptical orbit. So the ABC and the BBC quickly put together a plan for a live telecast, called Down Under Comes Up Live, from Carnarvon – a town which doesn’t even have a television service!

Connection was the theme, and ordinary people were the stars of the show. The program reunited three families of British immigrants living in Carnarvon, two of whom who happened to be employees of the NASA tracking station, with their relatives in the BBC studios in London. It also included some interviews with local residents talking abut life in their remote community. Introducing new babies to family is a universal ritual, and it's delightful to see that it was one that played out in both Down Under Comes Up Live and Our World.

Down Under Comes Up Live was a direct one-way broadcast (a return signal was not possible for technical reasons) that was a complex undertaking (and a good rehearsal for our involvement in Our World). Without a local television station in Carnarvon, ABC outside broadcast vans and their technical staff made a 560 mile trip from Perth to produce the program. The vision was sent live to London from the satellite station, but the audio to and from London was transmitted separately by cable.

On Friday 25 November 1966, more than twelve minutes of television was broadcast to London. Although the program was seen live in the UK, rather ironically, we couldn’t see it live in Australia because there are no television links between Carnarvon and Perth. We had to wait for a few days to see this history-making program, once a film copy of the UK broadcast was flown back to Australia.

Incoming – Australia Day at Expo 67
Apart from a few test transmissions, it was just three weeks ago that we saw the first satellite broadcast into Australia – a live telecast of Australia’s ‘special day’ at Expo 67 in Montreal. This time the transmission came via NASA’s Applications Technology Satellite (ATS)-1. To support this program, NASA has established a temporary satellite station at Cooby Creek dam, about 14 miles north of Toowoomba in Queensland.

The picturesque setting for NASA's Cooby Creek tracking station that brought both Australia Day at Expo 67 and Our World to Australia via ATS-1

Several hundred thousand people around the country, including my sister’s family and I, watched live through the early hours of 7 June our time, as Australia took centre stage in Canada. The program commenced with Prime Minister Harold Holt officially opening the Australian Pavilion at the Expo. Special events for “Australia Day” included boomerang throwing, sheep-dog trials, wood chopping contests and tennis matches with members of the Australian Davis Cup team. Celebrity was an important theme for the variety concert, "Pop Goes Australia", which showcased Australian talent, including the internationally-known Rolf Harris and The Seekers.

The clarity of the satellite picture from Montreal was surprisingly good: I’ve heard that hundreds of viewers rang the ABC in Sydney wanting to be assured that the vision really was being broadcast live from Canada! I just wish I could find some decent reproductions to show you or had thought to take a picture on the screen of our TV set. 

Our World – joining hands (almost) around the planet
So, with just two satellite broadcasts under its belt, from 4.50am Australian Eastern Time on 26 June, Australia participated in the Our World program, helping to string Puck's "girdle around the world". We joined 13 other nations in providing television content for the first live global television broadcast, which instantaneously linked 24 countries on six continents via four communications satellites, with the signals travelling around the world in just 2 seconds!

The brainchild of the BBC, though produced under the auspices of the European Broadcasting Union, the global telecast was controlled from the BBC in London, with America’s National Educational Television in New York City feeding items from the United States, Canada, Mexico, Australia and Japan to the British Control Centre. Literally thousands of technicians handled the outside broadcasts and studio operations around the world. Satellite ground stations in Australia (NASA's Cooby Creek facility again), Japan, Canada, the United States, Britain and France transmitted sound and vision to and from the satellites. As each of the contributing countries provided commentary in their own language, there was also the necessity of rapidly translating the various languages, so that everyone in the receiving countries could understand what was being said.

The technical complexity of Our World is evident from this diagram, which shows just part of the world-wide links between television stations and satellites necessary to make the global broadcast a reality

Given the incredible technical complexity of the television transmission, it’s quite amazing that the two-hour program was carried through with very few technical problems – especially when the entire broadcast was televised live, with no filmed insertions or other previously produced material apart from the opening montage. We saw everything as it happened.

Our World was intended as a major achievement for both space technology and international relations, a bridge between East and West in these troubled times of wars cold and hot. Unfortunately, at the last minute, politics reared its ugly head and the USSR and several Eastern European nations that were originally going to participate pulled out of the broadcast just a few days before, as a protest against the recent war in the Middle East. This was disappointing and made for some hurried re-arrangement of parts of the program, but it didn’t dampen the mostly aspirational tone of the broadcast as a celebration of human achievement and hope for a more peaceful future. There was also the irony that a US segment about the Glassboro, New Jersey conference between American president Lyndon Johnson and Soviet premier Alexei Kosygin was still included in the broadcast, although – since the Our World producers insisted that no politicians could be shown – only an external view of the house where the conference was being held was televised.

New Babies and their World
The broadcast crossed countries, seas and time zones, and was presented as fusing “yesterday”, “today” and “tomorrow” (by dint of the different time zones around the world) into a globe-encircling “now”. The birth of several babies across the world opened the program, which was presented in a sense as a “survey” of the world into which these newborns are entering.

A baby in Mexico, born live on television for all the world to see!

The babies are introduced to their new world through several themes: This Moment's World (what people were doing are doing at that moment around the world); the Hungry World (what scientists are doing to attempt to solve or alleviate the hunger problem); the Crowded World (looking at proposed solutions to the population explosion); Aspiration to Physical Excellence (the continual attempt to develop physical skill); Aspiration to Artistic Excellence (the drive to excel in the arts); and the World Beyond (focussed on astronomy and space travel. Within these themes, vignettes of life and activity from around the world formed the tapestry of the program. Even if some of the actual presentation was, quite frankly, dull and pedestrian (the excitement was, after all, the fact that we were seeing something live from another part of the globe), I thought the concept was an interesting way to approach telling the story of our planet. If an extra-terrestrial civilisation one day happens to intercept this program as its signals travel through space, they'll learn a lot more about the reality of the Earth and its people from Our World than they will get from episodes of I love Lucy.

Everyday Life

The theme This Moment's World presented a panorama of people and activities in various parts of the globe, moving through evening in Europe to afternoon in New York City, with a visit to Tunis along the way. I loved the views of old and new parts of the city. We saw Marshall McLuhan being interviewed in a Toronto television control room, people swimming at the beach at lunchtime in Vancouver, Canada (making us Aussies all envious on a cold winter's morning) and workmen digging a subway at 4am in Japan. Since the program took place between 5.00 am and 7.00 am Australian Eastern time, our first contribution commenced at 5:22 am local time, with a visit to the Hammer Street Tram Depot in Melbourne, where the first tram of the day was departing to service Monday morning commuters. 

This segment was the first cross to the Southern Hemisphere and came directly after the broadcast from Japan. The switch from Japan to Australia was apparently the most technically complicated of the program, as the Japanese and Australian satellite stations had to switch immediately from transmission to receiving mode and back again. The material coming into Australia also had to be converted from the 525-line system to our 625-line format for local broadcast, while the segment going out of Australia had to be converted from 625 to 525-line in order to be sent back to the US and then on to London!

Sweden gave us the first – and almost the only – female presenter in the program!

Global Concerns
Australia also featured in the Hungry World theme, which concentrated on food production and the issues of feeding an ever-growing world population. In addition to items from the United States and a shrimp farm in Takamatsu, Japan, we visited the Canberra phytotron, a laboratory run by the national scientific research agency, CSIRO. In the phytotron, plants can be grown under a wide range of closely controlled climatic conditions. It’s claimed to be one of the world's finest and most up-to-date facilities for plant research, and a number of international scientists work there alongside local researchers.

The CSIRO phytotron's Director, Dr. Lloyd Evans, at work in his plant laboratory. Apparently, he often starts his workday at 5am, so he didn't have to get up earlier than usual for the show!

A couple of segments that were of interest to me in The Crowded World theme were a visit to Cumbernauld (near my father’s home town of Glasgow, Scotland), which was the recipient of an international award for best planning in a new town, and a glimpse of Habitat, a new concept of living accommodation, on display at Expo '67.

Human Achievement
In Aspiration to Physical Excellence, there were contributions from Rome, Sweden, France (where a parachutist made a dizzying free fall with a camera strapped to him), and Winnipeg, Canada, where a 16-year-old Butterfly champion attempted to beat her own world indoor swimming record.


We get to watch live as actors rehearse the wedding scenes from Italian director Franco Zefferelli's next film, Romeo and Juliet
Aspiration to Artistic Excellence included a visit to the Maeght Foundation museum of modern art in France, with artists Marc Chagall and Joan Miro, Leonard Bernstein and pianist Van Cliburn rehearsing Rachmaninoff's Third Piano Concerto. Opera singer Maria Callas, and painter Pablo Picasso also featured. In the context of this theme, it’s interesting to note that the Our World anthem, which accompanied the opening montage was composed by Frenchman Georges Delerue, whose musical score credits includes the recent Academy Award winning motion picture, A Man for All Seasons. He wrote the melody based on the rhythm established by the words “Our World”, sung in 22 different languages by the Vienna Boys’ Choir.

But the highlight of this theme has to be a ‘fly on the wall’ visit to a recording studio where the fabulous Beatles were recording their latest anthem “All You Need is Love”, which was specially written for the Our World broadcast! You can see them below, surrounded by their many friends in the music world, who came to the recording party and became informal backing singers. The black and white shot shows how we saw the FAB Four in the live broadcast, while the colour photo was taken just before the televised performance. 

 
Reaching for the Stars
The World Beyond theme took us to the heart of the Space Race, with a visit to Cape Kennedy to see a Saturn V Moon rocket on the pad being readied for its first flight. The telecast also came to a close on the theme of outer space, with a visit to Australia’s Parkes radio telescope – at 210 ft. the largest fully-steerable radio telescope in the world. Here we sat in on an observation of the most distant object currently known – a mysterious quasar only discovered last year by the Parkes telescope's director, Dr. John Bolton. It’s so far away that its light and radio signals take 13,000 million years to reach us!

An ABC cameraman, wearing a heavy jacket in the early morning winter cold, prepares for filming the Our World segment at the Parkes Radio Telescope.

So that was Our World. A fascinating mix of banality and creativity, made magical by the technology of the Space Age, and the knowledge that everyone watching was sharing the experience simultaneously with millions of others across our planet in a way that has never before been possible. With a worldwide audience estimated between 350 and 700 million, the broadcast was a potent demonstration of the potential reach of satellite television. I'm sure that before too long, satellite television from around the world will be a regular occurrence, bringing us news, sport, entertainment and major world events – and we here in Australia will have to get used to being up at all hours of the night to watch! But I wonder what will top this broadcast's incredible audience reach? The first manned landing on the Moon, perhaps?





[April 6, 1965] The Early Bird Catches the Worm (INTELSAT 1)


by Kaye Dee

Later today, the International Telecommunications Satellite Organization, better known as INTELSAT is going to launch its first satellite, INTELSAT-1, which goes by the nickname of ‘Early Bird’. This satellite is intended to be the beginning of a global satellite telecommunications network, which INTELSAT hopes to have in operation by about mid-1967.


INTELSAT aims to connect us all via satellite – starting with the US and Europe

INTELSAT: Connecting the World with Space Technology

I wrote about INTELSAT last year, when the organization was first established in August 1964, with Australia as one of its 11 founding members. Around 45 countries have now joined the INTELSAT consortium and I’m certain that the creation of a world-wide telecommunications system that offers equitable access to all nations will improve international understanding and the prospects for world peace. Satellite communications will certainly prove a boon for countries with poorly-developed internal communications networks, as well as allowing major Southern Hemisphere nations like South Africa and Australia to have more rapid connections to Britain, Europe and North America.


One of the United States' first space stamps recognised the potential for satellite communications to promote world peace

Assuming all goes well with the launch this evening, INTELSAT-1 will be placed in a geostationary orbit at 22,300 miles above the equator, east of the Brazilian coast. Once the satellite has been thoroughly checked out to be sure it’s in full working order, it will go into operation, around the beginning of June, as the first commercial satellite providing regular telecommunications and broadcasting services between North America and Europe.

Soaring to New Heights

Of course, satellite communications between the Unites States and Europe isn’t completely new: Telstar and Relay 1 both provided this service back in 1962. But both satellites were only in low Earth orbit, so they could only provide intermittent service. When Syncom 2 and 3, were launched in 1963 and ’64, respectively, these experimental spacecraft built by the Hughes Aircraft Company demonstrated the feasibility of using satellites in geosynchronous and geostationary orbit to provide a world-wide communications system. They were so successful in connecting America with countries from Japan to Nigeria, that Syncom 3 was the prototype on which Early Bird has been modelled, and you can see the similarity in design.


Syncom 3 above and Early Bird undergoing tests below

Like Syncom 3, INTELSAT-1 is spin stabilised, which is the reason for its cylindrical shape. It has two 6-Watt transponders that enable it to carry 240 two-way voice circuits and one television channel, although not simultaneously: in order to transmit television, all the telephone voice channels have to be shut down.  An important difference between the two satellites, though, is that INTELSAT-1 uses commercial rather than military frequencies for its communications to and from the ground.

INTELSAT-1 weighs just 85-lb which, amazingly for its capabilities, is less than half that of Sputnik 1’s 184 pounds. It is covered with 6,000 solar cells that generate 45 Watts of power to operate the satellite. Early Bird’s capabilities are so advanced that it will actually be more economical to operate than international undersea cables, which carry fewer channels and cost nearly 10 times as much!

Getting into Position

Early Bird is being launched by a Thrust-Augmented Delta, the same type of rocket that was used to put Syncom 3 into orbit. This vehicle, also known as the Delta D, is essentially the same as its predecessor, the Delta C, but with the addition of three Castor-1 solid rocket boosters attached to the first stage. The launch is taking place at Cape Canaveral Air Force Station Launch Complex 17A, which was also used for Syncom 3’s launch. The Delta will boost Early Bird into an elliptical orbit, taking it from 830 to 22,950 miles out in space. After 40 hours a series of delicate manoeuvres will place the satellite in its permanent orbital position.


Early Bird's launch vehicle being assembled. The Castor-1 solid boosters are being hoisted into position while the Delta rocket core waits in the background. It will soon be brought forward for mating with the boosters

Demonstrating the Future

Although it will operate as a commercial service, Early Bird will also be used to demonstrate that international satellite telecommunication is commercially viable in the long-term. While its main ground stations will be the huge horn antennae originally built for Telstar, it will also use ground stations with large parabolic ground antennae with diameters of over 85 feet, like the one at Goonhilly in England, and perhaps smaller antennae as well.


The Telstar horn antenna at Pleumeur-Bodou, France, is now being used as an INTELSAT-1 ground station

From my friends at WRE who are involved with the NASA Gemini tracking station at Carnarvon, Western Australia, I understand that if the Early Bird experience goes well, the antennae for the INTELSAT-2 satellites, that are being contracted by NASA to support the Apollo programme, will be an unusual Cassegrain feed-horn design that is already being nicknamed the “sugar scoop”! I’m fascinated to see what this antenna will actually look like, with a nickname like that!

The other thing that INTELSAT-1 will be determining is whether or not the end to end signal delay of 250 milliseconds, while the signal goes up to the satellite and returns to the ground, will be acceptable to customers. Syncom 3 demonstrated that geostationary orbit is so high that, even at the speed of light, there is a perceptible time-lag between comment and response when communicating internationally. Whether people will find this too disconcerting for use with international satellite phone calls could have a significant influence on how future communications satellite systems are developed.


240 phones for 240 conversations simultaneously carried on via Early Bird. But will people accept the time-lag that comes with geostationary satellite communications?

So, my friends in the Northern Hemisphere, enjoy the convenience of satellite telecommunication that will soon be available to you-I can’t wait for it to come to Australia as well.



We had so much success with our first episode of The Journey Show (you can watch the kinescope rerun; check local listings for details) that we're going to have another one on April 11 at 1PM PDT with The Young Traveler as the special musical guest.  As the kids say, be there or be square!

[August 29,1964] Coming to You Live via Satellite


by Kaye Dee

Back in early January 1955, I was incredibly lucky to hear space promoter and science fiction writer Mr. Arthur C Clarke give a talk in Sydney about the future prospects of space activities. One of the things he discussed was the way in which satellites in Earth orbit could revolutionise communications around the world, allowing us to make phone calls or transmit television and radio virtually instantaneously from country to country. He first wrote about his ideas for global satellite communications back in 1945, especially in an article in the British radio enthusiasts’ magazine “Wireless World”. Mr. Clarke explained that three satellites, placed equidistantly around a very particular orbit, would be able to provide radio and television coverage across the world by relaying signals sent from ground stations in each country.

The first two pages of Mr. Clarke's seminal article on communications satellites. As a science fiction author, I guess he couldn't resist the title.

The special orbit that Mr. Clarke discussed is now called “geostationary orbit”: it’s 24,000 miles above the equator. Satellites in this orbit are travelling at the same speed as which the Earth rotates, and this means that they appear to be stationary above one spot on the Earth’s surface, so that they can act as a stable relay platform for radio and television signals.

From Imagination to Reality

Well now Mr. Clarke’s idea is in the process of becoming reality! Since 1962, Telstar, Relay and the Syncom 1 and 2 satellites have all transmitted telephone and television between the United States and Europe. But none of these satellites was in geostationary orbit and none of them was in a suitable position to transmit to the Southern Hemisphere. On August 19, Syncom 3, the latest in the series, was launched —and it is going to become the world’s first geostationary communications satellite! Right now, it’s manoeuvring from its initial elliptical orbit up into its final geostationary orbit, which it is due to reach by late September — just in time to broadcast the Tokyo Olympic Games to you in the Northern Hemisphere. Unfortunately, we here Down Under will miss out again this time, but hopefully not for too much longer….


The Syncom 3 geostationary satellite. Soon it will be bringing you the Tokyo Olympics live – if you live in the Northern Hemisphere

Introducing INTELSAT

Just a few days ago, on August 24, Australia formally became a founding member of the International Telecommunications Satellite Organization, which is going to be known as INTELSAT for short. INTELSAT is a revolutionary idea: an intergovernmental consortium that will develop, own and manage a global geostationary satellite communications network to provide international broadcast services. Member nations will contribute to the cost of establishing, operating and maintaining the satellite system, but they’ll get a return for that investment through the revenue generated from satellite usage fees. The really great aspect of INTELSAT is that its services will be open to any nation to use and everyone will pay the same rates. This is an important policy because it means that Third World countries will be able to afford to have access to satellite communications and be connected to the world.

In my May item on rocket mail, I mentioned how important satellite communications could be to Australia. The big difference is that it will really reduce our isolation from the rest of the world. Right now, if something major happens overseas, it’s going to be two or three days at least before we can see any film footage about it on television or in the newsreels. With satellites, we could see things the same day they happen! Satellites will also make it easier for us to communicate within Australia — we’ve got a very big country with a very small population, and there are a lot of parts of the Australia where it’s difficult or just too expensive to provide telephone connections and television service.

A Presidential Proposal

The late President Kennedy first proposed the idea that has become INTELSAT in a speech to the United Nations in 1961.


When President Kennedy addressed the United Nations in September 1961, he proposed a global satellite communications system – and international research into weather control.

He even signed the Communications Satellite Act in 1962 to help bring it into being. That Act created the Communications Satellite Corporation, which calls itself COMSAT, as a private corporation to represent the United States in the international governance for INTELSAT, where most other countries are represented by their national telecommunications carriers: Australia, for example, will be represented by the Overseas Telecommunications Commission (OTC), which has been our telecommunications agency since 1946. In addition to Australia, seven other countries have joined together to establish INTELSAT, and several more nations will become members soon, once their governments have enacted the necessary legislation.

Mrs O’Donahue Saves the Day!

INTELSAT plans to launch its first its first satellite in the first half of next year. Interestingly, I have heard that NASA is thinking of using INTELSAT satellites to provide communications links with its tracking stations around the world for the Apollo Moon programme. Actually, a recent incident at the NASA Carnarvon Tracking Station in Western Australia may have helped to give them the idea. Back in April, the Manned Space Flight Network station in Carnarvon suffered a major loss of communications just minutes before it was due to support the uncrewed Gemini 1 mission.


Gemini 1 launched successfully, but one of NASA's main tracking stations for the mission almost wasn't operational!

A lightning strike destroyed the telephone lines between Carnarvon and the town of Mullewa, which was the tracking station’s only connection to Perth and the overseas cables that carried data to and from America.

Luckily, an alternative route along an obsolete section of an old pole-top phone line was improvised. Information from NASA, relayed via Perth, was sent to along this line to the tiny settlement of Hamelin Pool. Mrs. O’Donahue, the postmistress there, then read the data figures down the temporary line to the Carnarvon telephone exchange for more than two hours! After this near-catastrophe, it’s no wonder NASA is looking for a more reliable means of communication with Carnarvon!


Here's a woman who never thought she'd be saving NASA's bacon: Mrs. O'Donahue, the postmistress at Hamlin Pool

If NASA goes ahead with its plan to use communications satellites for its Apollo communications network, I guess OTC will be establishing Australia’s first satellite ground station in Carnarvon, to keep the NASA station in contact with the United States. I can’t wait to see the first live satellite broadcasts to and from Australia.

And if I can call my Scottish cousins directly via satellite, that’s going to be a slice of science fiction become reality!


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