Day: May 2, 2021

About those cute little robots that are all over China these days…

Unknown in the rest of the world, but commonplace in China are these little robots that are seemingly everywhere. They scan you when you go into public buildings, and they help deliver food to you. They ask you if you need help or directions, and they help sweep the sidewalks and perform basic maintenance tasks. And here I am in a second tier city. Not even a first tier city. It’s all really cool.

According to the International Federation of Robotics (IFR), China has had the most industrial robots in operation globally since 2016. By 2020, China is expected to produce 150,000 industrial robot units and have 950,300 industrial robots in operation.

A few years back was when I first noticed them. I think that my first exposure to the public robots was around 2013. There I saw my first one patrolling the immigration walkways of Shenzhen.

Then a few years ago, I bought my infant her first baby robot. This is a cute little egg about the size of  barbie doll that sang and talked. It would pulse in this kind of pale yellowish light and it’s eyes would twinkle blue and green. She loved her little baby robot.

Since then I really haven’t paid the robot developments too closely. Most of my concern were in the industrial aspects of AI and robotics. Not so much regarding the commercial and public aspects.

Then 2020 Coronavirus hit.

Ouch! Then suddenly the skies were filled with thermal imaging drones, and police robots making sure that people are kept off the streets and maintaining good citizenship behaviors. The first were nothing more than a nice shiny white cylinder with a pair of eyes, a television screen and a nice voice.

Now they are getting more sophisticated. they all seem to have either a female voice or a cute little girls voice. It’s actually quite charming.

Here’s some videos. Check out the little girly voice on this delivery robot…

Factory Robots

And they have been in factories for decades now.

China made robotics a focal point of its recent “Made in China 2025” plan, and has set national goals of producing 100,000 industrial robots a year and having 150 robots in operation for every 10,000 employees by 2020, a figure known as robot density.

-Robots are key in China's strategy to surpass rivals

Service Robots

A service robot operates semi or fully autonomously to provide services for human health or the maintenance of equipment, excluding industrial operations.

Healthcare/medical devices, finance, warehousing/logistics, and customer service/catering are the hottest industries for service robots. Service robots have also increasingly been appearing in households as home-cleaning robots, accompanying robots, entertainment robots, and education robots.

In 2017, the market for service robots was worth an estimated US$1.32 billion in China. But with a rapidly aging population, the continuous demand for healthcare and education, and the rapid development of parking robots and supermarket robots, the market size of service robots in China is expected to exceed US$2.9 billion by 2020.

Here’s an example of a video performing warehouse activities…

Some fun pictures

The main applications of industrial robots in China are in the following sectors: automobile manufacturing, electrical and electronics, rubber plastics, metallurgy, food, chemical engineering, and medicine and cosmetics.

-The Robotics Industry in China - China Briefing News

Here’s a police robot that connects to your cell phone. It enables you to chat with it via your cell phone, exchange pictures, get directions and offers the entire host of government APPs that are available within China.

Robots come in many sizes and shapes. the smaller ones are just as capable as the larger ones and can provide translation services, guide, help and directions. This one is Wechat enabled and enables you to connect to it directly for information access and data.

Hospital Robots

Here’s a couple of police robots that assist in hospitals, airports, rail stations and other public venues. Like all police robots they provide ready access to a Police hot line, and immediate help in any distress situation.

Specialized service robots

Specialized service robots in China are generally considered those used for military applications, extreme operations, and emergency rescue.

Specialized service robots in China are increasingly being used in response to earthquakes, floods, extreme weather, fire, security, and other public safety incidents. With Chinese enterprises’ increasing safety awareness, specialized service robots will be used in dangerous environments to perform a wide variety of tasks.

In 2017, China’s market for specialized service robots was worth an estimated US$740 million. By 2020, it is expected to reach US$1.24 billion.

Here’s a robust all-terrain police robot for crowd control and assistance to people. It monitors the environment and responds to issues just like a normal policeman would.

In addition to regional clusters, China has more than 40 robotics-focused industrial parks throughout the country. Robotics-focused industrial parks benefit from government resources and incentives to promote the industry. At the 2017 World Robot Conference in Beijing, CIE released the Report on the Development of China’s Robot Industry (2017).

-The Robotics Industry in China - China Briefing News

AI advancements in Manufacturing

China has been the world’s largest industrial robot market for four consecutive years. In 2016, China had a total sales volume of almost 90,000 units – a 27 percent increase compared to 2015 and representing 30 percent of the global market.

The Chinese government has ambitious plans for the country’s robotics industry.

MIC 2025 starts by listing the robotics industry, along with artificial intelligence and automation, as one of the priority sectors for high-end development to push forward the transformation and upgrading of the manufacturing industry. This push sees the government aiming to raise the global market share of Chinese-made robots from 31 percent in 2016 to over 50 percent by 2020.

Further, in 2016, the government launched the Robotics Industry Development Plan (2016-2020) to promote robot applications to a wider range of fields and to attract foreign investment, aiming to make 100,000 industrial robots produced by domestic technology annually by 2020.

To attain these goals, the government supports companies that implement robotics-enabled automation in key industries, including automobile manufacturing, electronics, household electrical appliances, and logistics. The government has several programs and incentives to encourage R&D development and innovation, such as offering robot manufacturers and automation businesses subsidies, low-interest loans, tax relief, and land rental incentives.

Furthermore, the Ministry of Industry and Information Technology recently announced at a news conference in anticipation of the 2018 World Robot Conference that China has “approved a plan to build a national robotics innovation center, which will focus on tackling common bottlenecks such as human-machine interaction technologies and compliant control.”

During the 2017 Boao Forum, Chinese officials also restated the importance of domestic and foreign companies to be “treated equally in terms of qualification licenses, government procurement, and enjoying preferential policies of MIC 2025.” Nevertheless, many foreign governments and tech companies fear that MIC 2025 gives Chinese companies an unfair advantage.

-China Briefing

Police Robots

Here’s a police robot that answers your queries. Can provide directions, answer questions, respond to distress and show you where to go, including taking you to the police office or exit if you need help.

To date, the government’s efforts to develop the industry appear largely successful: China is the fastest growing robot market in the world. Analysts attribute China’s rising robotics industry to its scale, growth momentum, and capital.

As of March 2017, more than 800 companies in China were directly involved in robot manufacturing, and by the end of 2017, there were over 6,500 companies relating to robotics. Major Chinese robotics players include SIASUN and DJI Innovations.

Development primarily focuses on servo control, motor, and reducer, human-machine interaction techniques, robot vision and intelligent speech, and underwater robots, among other technologies.

The rapid growth in China’s robotics industry is not limited to domestic companies. Foreign companies such as Nachi-Fujikoshi and FANUC have franchised with KUKA, Reis Robotics, Staubli, and ABB to establish production facilities in China – not only sales or integrated offices. The Taiwanese electronics giant Foxconn is another major robotics player in China.

Government incentives have also allowed Chinese companies to acquire Western robotics technology companies. For example, in 2016, Midea Group acquired KUKA, one of the world’s largest robot manufacturers, to advance its home appliance production.

With strong government interest in the robotics industry, a large and growing number of Chinese companies, and foreign companies that often hold the most advanced technology, there are a number of different actors involved in the industry.

According to Martin Kefer, founder of Motus Operandi, a robotics software company based in Shanghai, foreign robotics companies entering the Chinese market must be prepared to deal with a large number of stakeholders.

Kefer noted that many of the manufacturers that are adopting robots operate in Sino-foreign joint ventures, such as in the auto industry, where foreign ownership is still capped.

“Getting the foot in the door with JV manufacturers can be difficult,” Kefer noted. “Every car company partnering with a local factory in a mandatory JV agreement can make negotiations among stakeholders more complicated.”

Furthermore, investors must be prepared for the government to be another key stakeholder in the industry. “[The] government is an actor on all levels,” Kefer said.

-China Briefing

Software for robots

Besides the current two traditional robotics businesses in China – hardware and system integration – foreign companies such as Motus Operandi are investing in a third solution: software designed for robots.

For example, Motus Operandi provides software for installation in robots that finds the most energy efficient way for a robot to carry out a given task, which can save companies millions annually.

“We focus on smart motion for robotics arms in manufacturing industries. We bring something new, which is reducing the energy consumption and improving the speed of the robot system, based on the data from the robot system.” 

- Martin Kefer, founder of Motus Operandi, a robotics software company based in Shanghai

Robotics companies such as Motus Operandi benefit from the Chinese government’s support for the industry.

“Electricity is subsidized in China, which means the government pays the final bill,”

Yet, Kefer cautioned against over-reliance on subsidies and incentives.

“Avoid relying on government for growth,” 


“Support for startups in China are mostly for Chinese startups – securing government funding is harder for foreign startups.”

Motus Operandi’s experience is demonstrative of opportunities in China’s robotics industry. Aided by government support, producers of robots and related software and services are finding substantial room for growth.

However, these same government initiatives can also create competition and hurdles for foreign players in the long run. Such policies make the robotics industry an alluring but challenging area for foreign investment.

Everyday Robots

Here’s a police robot. It’s going around and helping people and monitoring crowd control and providing situational awareness.

According to the Chinese Institute of Electronics (CIE), east China’s Yangtze River Delta region has the most solid foundation for robotics development.

The Yangtze River Delta region has formed an agglomeration effect in Shanghai, Kunshan, Changzhou, Xuzhou, and Nanjing.

Many global robotics giants establish headquarters or offices in the Yangtze River Delta, especially in Shanghai, where Kefer noted that the startup environment is very supportive.

The robotics industry in the Pearl River Delta and the Beijing-Tianjin-Hebei (Jing-Jin-Ji) regions are also gradually growing.

The number of robotics-related companies in the Pearl River Delta region is over 700, second only to the Yangtze River Delta region, with a total output value of RMB 75 billion (US$11.80 billion).

However, the industry’s overall innovative capabilities in the northeastern region – China’s rust belt – have been limited in recent years.

In China’s central and western regions, the foundation of robot production is relatively weak. However, these generally fast-growing regions still show potential for development.

In addition to regional clusters, China has more than 40 robotics-focused industrial parks throughout the country. Robotics-focused industrial parks benefit from government resources and incentives to promote the industry.

-China Briefing

Human appearing Robots

The world of robots is very interesting. From what I have shown so are, which are the norm inside of China, to the stuff that you don’t see often…

…like military robots.

…like sex robots.

I would say that about 99% of the sex robots are manufactured within China. It's a big industry and many Americans and people from the Middle East don't hesitate to pay a couple of thousand US dollars for a model of their choice.

And one of the most interesting are the human appearing life-like robots. Such as this…

Everyday Robots

These are some pictures of scenes that are not uncommon within China…

Or, this… which was all over Chinese television back in 2016 during the Chinese New Year. These little guys all danced up a storm, and five thousand or so.

Or, this little guy which is being exported to Japan…

Or, this… even this is becoming more common in the larger cities such as Shenzhen.

Some Chinese military robots

It’s a new world out there.

These are currently fielded. There are many more in development.

And an interesting write up on Chinese robots in 2016 (five years ago) on Global Security

Some published science fiction a long time ago imagined battle scenes of robot soldiers in the future. Now this fantasy is becoming a reality due to the rapid development of automation technology in recent years. Military robots replace individual soldiers on the battlefield, which can greatly reduce the casualty rate of military personnel on the battlefield. Robots can return to the battlefield by mechanically repairing and replacing parts. The machine can be mass produced and hardly needs any training.

Military robots have stronger battlefield awareness than individual soldiers, and can detect potential dangers on the battlefield through sensors. Compared with individual soldiers, the machine has a stronger load capacity and can be equipped with various heavy weapons, which greatly improves the combat capability. The machine can perform round-the-clock tasks with guaranteed energy. Machines are more adaptable than individual soldiers and can adapt to different battlefield environments. Robots will not have emotions, making military tasks go more smoothly.

Unmanned technology has broad application prospects in the military field, will profoundly change the form and style of future warfare, and is the strategic frontier of the development of army equipment. Just as the invention of gunpowder sent modern warfare into the era of hot weapons, some scholars have asserted that artificial intelligence will be the key to detonating future warfare changes. Future wars will be wars on chips. This is not just a contest of human wisdom, but also a confrontation between unmanned systems. Unmanned systems will gradually free human soldiers from heavy physical work and extreme danger and let them focus on making combat decisions and carrying out technical and tactical movements. If such killer robots are put into battle on a large scale, it is very difficult for the human army to win.

The equipment of unmanned combat vehicles has greatly improved the technical and informatization level of Chinese troops. It gives infantry units stronger battlefield reconnaissance, situational awareness and support firepower. How to achieve perfect tactical coordination with unmanned combat vehicles and give full play to the combat capabilities of unmanned combat vehicles has become a very important issue facing the Chinese military.

The Chinese military is developing and testing autonomous / remote control large (over one ton) UGVs (unmanned ground vehicles), which include tanks based on the transformation of the equipment with a lot of artificial intelligence. With the ability to fight autonomously, soldiers can control it remotely. According to military experts of China, the program of robotization of the armed forces in the period from 2014 to 2022 and meeting the needs of the PLA with various types must be accompanied by a 15 percent annual increase in expenditures for these purposes from 570 million. USA in 2013 to 2 billion in 2022.

China is trying to catch up and intends to become the first in this field. UGVs can be traced back to the 1990s , when the U.S. Department of Defense developed a four-wheeled, 1.6- ton MDARS (Motion Detection Evaluation and Response System) robotic vehicle for security tasks. This robot is equipped with radar and three-dimensional vision sensors. It can avoid obstacles and recognize any objects encountered. Since 2001, Americans have equipped thousands of robots of this type. Chinese military experts have concluded that the design and creation of fully Autonomous weapons systems is possible only in the long term. The unresolved question is to determine the volume of tasks, operation and the role of Autonomous robotic systems on the battlefield.

The People’s Liberation Army Ground Force (PLAGF) recently announced that the Sharp Claw I unmanned ground vehicle (UGV), manufactured by China North Industries Corporation (Norinco), entered service on April 13. This was first reported by China Central Television 7 and was subsequently confirmed by the PLA’s Eastern Theatre Command. Jane’s, the UK-based military news site, was among the first to report the development in the West.

According to Jane’s, Sharp Claw I is a tracked combat and reconnaissance robot weighing 120 kg. (265 lbs.) and measuring 70 cm (28 inches) in length, with an operational range of 1 kilometer (0.6 miles). It can be carried in the cargo bay of the much larger Sharp Claw II UGV, and is designed primarily for use in remote areas unaccessible to human infantry. Sharp Claw II is a 6' x 6' wheeled, unmanned ground vehicle designed to execute combat reconnaissance, patrol, assault and transport duties.

Sharp Claw I is capable of detecting and attacking targets “in all weather conditions during the day and at night,” according to Norinco. It is armed with a light machine gun firing 7.62mm rounds. Norinco says the killer robot can operate autonomously.


First displayed as a prototype in air shows in 2014 and 2018, the operational Sharp Claw I has been fitted with numerous upgrades designed to improve its reconnaissance and killing abilities. These include an improved short-range electro-optical payload, machine vision, lighting suite and a refined magazine box and ammunition feed mechanism.

The Sharp Claw 1 can walk autonomously, or it can be carried in the cabin of a larger "pointed claw 2" transport unmanned combat vehicle. When marching, they will be transported by the "Jianclaw" 2, and when they reach the combat area, they will march down from the back panel placed behind the cab of the Jianclaw 2 wheeled unmanned combat vehicle for combat. Four years later, at the Zhuhai Air Show in 2018, North Company once again demonstrated an upgraded version of the "Jianclaw" 1 unmanned fighter. The new version has many upgrades, including improved short-range photoelectric loads, machine vision and lighting components, and a newly designed remote weapon station. The weapon station uses ammunition boxes to load ammunition, which can improve the continuous firing ability of unmanned combat vehicles.


Unmanned ground systems (UGVs) are a priority in China’s defense plans, but their deployment appeared limited. UGVs encompass numerous vehicles that operate on land with a human operator or autonomously. They can execute military missions including combat, ordnance disposal, and transport. Numerous Chinese civilian and defense companies, universities, and research institutes are developing UGVs and other unmanned ground systems. R&D on intelligent guidance for unmanned ground platforms is reported to receive support from China’s 973 and 863 programs for high-technology development, as well as the Twelfth FYP of the General Armament Department (GAD).

To spur these systems’ development, in 2014 the former GAD hosted the first robot competition, which featured 21 vehicles from over ten research institutes. Teams from NUDT came in first and second place, a team from BIT came in third place, and a team from the PLA’s Military Transportation University came in fourth place.

In September 2016 the Chinese military hosted the “2016 Leap Over Treacherous Paths” contest. The contest hosted five competitions for unmanned ground systems to simulate battle operations in different terrains and missions. The competition areas are rough terrain battlefield reconnaissance, rough terrain battlefield marching in formation, urban battlefield reconnaissance and search, transport in mountainous regions by bionic unmanned platforms, and transport in mountainous regions by non-bionic unmanned platforms.

The “Overcoming Dangers 2016” Ground Unmanned System Challenge took the form of socialized public release. Since its release on June 7, a total of 56 units, 116 platforms (times), and 557 people signed up to participate in the competition. Research institutes, state-owned enterprises, private enterprises and many other fields of research forces signed up to participate.

On the morning of September 6, the preliminary round of the “Overcoming Dangers 2016” Ground Unmanned System Challenge was grandly held in Tahe, Heilongjiang. After review by the expert group, a total of 40 leading units, 44 cooperating units, 73 teams, and 99 vehicles. Equipment participated in the preliminary round of this challenge. Lasted for 8 days, the preliminary round was successfully concluded on September 13, and 22 of the 73 participating teams advanced to the final.

The finals focused on strengthening the leadership of military requirements in the setting of missions and drove the development of unmanned systems related technology. There were three types of competitions, divided into five competition groups, namely: field battlefield missions, urban battlefield reconnaissance and There are three types of competitions, search and mountain transportation, which are divided into five groups according to the tonnage of the participating platforms and the features of functional structure.

After fierce competition, the Lions Intelligent No. 1 fleet of the Military Transportation Academy, the live-fire robot fleet of Inner Mongolia Zhongyi Electric Instrument Automation Company, the Run No. 1 fleet of the China North Vehicle Research Institute, and the Sunward Intelligent Fleet of Sunward Intelligent Equipment Co., Ltd. Champion of each participating project group.

More robot warriors are entering the arsenal of the Chinese military, with the latest additions being a small model that's equipped with a machine gun and a crane-like missile-loading robot, and experts said on Tuesday that robots will free human soldiers from heavy physical work and unnecessary danger.

The Chinese People's Liberation Army (PLA) is in possession of the small ground robot, which can traverse complicated terrains, accurately observe battlefield situations and provide ferocious firepower, the PLA Eastern Theater Command said on Sina Weibo on Monday when reposting a China Central Television (CCTV) report on the robot. In an announcement made on 13 April via its Sina Weibo account the PLA’s Eastern Theatre Command confirmed an 11 April report by the China Central Television 7 (CCTV 7) channel stating that the tracked, combat, and reconnaissance UGV was now in service with the Chinese military.

The thigh-high robot looks like a small assault vehicle. It walks on tracks similar to a tank, allowing it to adapt to complicated terrains in open field combat, move quickly and climb stairs, CCTV reported. Equipped with a machine gun, and observation and detection equipment including night vision devices, the robot can replace a human soldier in dangerous reconnaissance missions, the report said. Target practice results showed the robot has acceptable accuracy, and the use of weapons still requires human control.

This last picture looks like a ripoff of the Boston Dynamics robot, eh?

Well, you all do know that the leading scientists, engineers and designers for Boston Dynamics are all Chinese nationals. And when Trump told them to leave the country, they left and tried to find other work in China. Lucky for them that China is an engineering-friendly and manufacturing-friendly nation.

Some fun links

Anyways, enough of that. Here’s some fun links about robots in China.

Conclusion

Robots are not just science fiction anymore. They left the industrial applications and have entered the realms of consumer appliances, government services, and are providing new avenues and opportunities for the Chinese citizenry.

I wrote this post because I am seeing them slide into my life effortlessly. And now I’ve got a baby robot for my child and health and police robots at my local malls and police stations. It’s become normal.

So what do you suppose is next?

Here’s an army of “attack robots” made in China that are designed to fight in packs and coordinate their movements.

I guess that it is the new “wave of the future”.

And speaking of waves… how about some mechanical sharks. Maybe with death lasers for eyes…

Fearsome life-size ‘bionic machine shark’ robot unveiled at Chinese military tech show. It can be a bomb or can provide intel via sensory system. It can jam radar, communications and mess up sensors. Pretty cool. Especially as it is the size of a baby shark.

Oh, heck.

Forget about ships. How about entire navy of robot craft…

A robotic navy.

And finally

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The Sentinel by Arthur C. Clarke (Full Text)

This is the science fiction short story that eventually was made into the famous movie 2001: A Space Odyssey (1968) It’s a great read, and as much as I loved the movie, in many ways this short story was actually better. I hope that you all will enjoy it as much as I have.

THE SENTINEL

Arthur C. Clarke

1951 Avon Periodicals Inc.

The next time you see the full moon high in the south, look carefully at its right-hand edge and let your eye travel upward along the curve of the disk. Round about two o’clock you will notice a small, dark oval: anyone with normal eyesight can find it quite easily. It is the great walled plain,

one of the finest on the Moon, known as the Mare Crisium-the Sea of Crises. Three hundred miles in diameter, and almost completely surrounded by a ring of magnificent mountains, it had never been explored until we entered it in the late summer of 1996.

Our expedition was a large one. We had two heavy freighters which had flown our supplies and equipment from the main lunar base in the Mare Serenitatis, five hundred miles away. There were also three small rockets which were intended for short-range transport over regions which our surface vehicles couldn’t cross. Luckily, most of the Mare Crisiurn is very flat. There are none of the great crevasses so common and so dangerous elsewhere, and very few craters or mountains of any size. As far as we could tell, our powerful caterpillar tractors would have no difficulty in taking us wherever we wished to go.

I was geologist-or selenologist, if you want to be pedantic in charge of. the group exploring the southern region of the Mare. We had crossed a hundred miles of it in a week, skirting the foothills of the mountains along the shore of what was once the ancient sea, some thousand million years before. When life was beginning on Earth, it was already dying here. The waters were retreating down the flanks of those stupendous cliff s, retreating into the empty heart of the Moon. Over the land which we were crossing, the tideless ocean had once been half a mile deep, and now the only trace of moisture was the hoarfrost one could sometimes find in caves which the searing sunlight never penetrated.

We had begun our journey early in the slow lunar dawn, and still had almost a week of Earth-time before nightfall. Half a dozen times a day we would leave our vehicle and go outside in the spacesuits to hunt for interesting minerals, or to place markers for the guidance of future travelers. It was an uneventful routine. There is nothing hazardous or even particularly exciting about lunar exploration. We could live comfortably for a month in our pressurized tractors, and if we ran into trouble we could always radio for help and sit tight until one of the spaceships came to our rescue.

I said just now that there was nothing exciting about lunar exploration, but of course that isn’t true. One could never grow tired of those incredible mountains, so much more rugged than the gentle hills of Earth. We never knew, as we rounded the capes and promontories of that vanished sea, what new splendors would be revealed to us. The whole southern curve of the Mare Crisiurn is a vast delta where a score of rivers once found their way into the ocean, fed perhaps by the torrential rains that must have lashed the mountains in the brief volcanic age when the Moon was young.

Each of these ancient valleys was an invitation, challenging us to climb into the unknown uplands beyond. But we had a hundred miles still to cover, and could only look longingly at the heights which others must scale.

We kept Earth-time aboard the tractor, and precisely at 22.00 hours the final radio message would be sent out to Base and we would close down for the day. Outside, the rocks would still be burning beneath the almost vertical sun, but to us it was night until we awoke again eight hours later. Then one of us would prepare breakfast, there would be a great buzzing of electric razors, and someone would switch on the short-wave radio from Earth. Indeed, when the smell of frying sausages began to fill the cabin, it was sometimes hard to believe that we were not back on our own world – everything was so normal and homely, apart from the feeling of decreased weight and the unnatural slowness with which objects fell.

It was my turn to prepare breakfast in the corner of the main cabin that served as a galley. I can remember that moment quite vividly after all these years, for the radio had just played one of my favorite melodies, the old Welsh air, “David of the White, Rock.”

Our driver was already outside in his space-suit, inspecting our caterpillar treads. My assistant, Louis Garnett, was up forward in the control position, making some belated entries in yesterday’s log.

As I stood by the frying pan waiting, like any terrestrial housewife, for the sausages to brown, I let my gaze wander idly over the mountain walls which covered the whole of the southern horizon, marching out of sight to east and west below the curve of the Moon. They seemed only a mile or two from the tractor, but I knew that the nearest was twenty miles away. On the Moon, of course, there is no loss of detail with distance-none of that almost imperceptible haziness which softens and sometimes transfigures all far-off things on Earth.

Those mountains were ten thousand feet high, and they climbed steeply out of the plain as if ages ago some subterranean eruption had smashed them skyward through the molten crust. The base of even the nearest was hidden from sight by the steeply curving surface of the plain, for the Moon is a very little world, and from where I was standing the horizon was only two miles away.

I lifted my eyes toward the peaks which no man had ever climbed, the peaks which, before the coming of terrestrial life, had watched the retreating oceans sink sullenly into their graves, taking with them the hope and the morning promise of a world. The sunlight was beating against those ramparts with a glare that hurt the eyes, yet only a little way above them the stars were shining steadily in a sky blacker than a winter midnight on Earth.

I was turning away when my eye caught a metallic glitter high on the ridge of a great promontory thrusting out into the sea thirty miles to the west. It was a dimensionless point of light, as if a star had been clawed from the sky by one of those cruel peaks, and I imagined that some smooth rock surface was catching the sunlight and heliographing it straight into my eyes. Such things were not uncommon. When the Moon is in her second quarter, observers on Earth can sometimes see the great ranges in the Oceanus Procellarum burning with a blue-white iridescence as the sunlight flashes from their slopes and leaps again from world to world. But I was curious to know what kind of rock could be shining so brightly up there, and I climbed into the observation turret and swung our four inch telescope round to the west.

I could see just enough to tantalize me. Clear and sharp in the field of vision, the mountain peaks seemed only half a mile away, but whatever was catching the sunlight was still too small to be resolved. Yet it seemed to have an elusive symmetry, and the summit upon which it rested was curiously flat. I stared for a long time at that glittering enigma, straining my eyes into space, until presently a smell of burning from the galley told me that our breakfast sausages had made their quarter-million mile journey in vain. .

All that morning we argued our way across the Mare Crisium while the western mountains reared higher in the sky. Even when we were out prospecting in the space-suits, the discussion would continue over the radio. It was absolutely certain, my companions argued, that there had never been any form of intelligent life on the Moon. The only living things that had ever existed there were a few primitive plants and their slightly less degenerate ancestors. I knew that as well as anyone, but there are times when a scientist must not be afraid to make a fool of himself.

“Listen,” I said at last, “I’m going up there, if only for my own peace of mind. That mountain’s less than twelve thousand feet high -that’s only two thousand under Earth gravity-and I can make the trip in twenty hours at the outside. I’ve always wanted to go up into those hills, anyway, and this gives me an excellent excuse.”

“If you don’t break your neck,” said Garnett, “you’ll be the laughing-stock of the expedition when we get back to Base. That mountain will probably be called Wilson’s Folly from now on.”

“I won’t break my neck,” I said firmly. “Who was the first man to climb Pico and Helicon?” “But weren’t you rather younger in those days?” asked Louis gently.

“That,” I said with great dignity, “is as good a reason as any for going.”

We went to bed early that night, after driving the tractor to within half a mile of the promontory. Garnett was coming with me in the morning; he was a good climber, and had often been with me on such exploits before. Our driver was only too glad to be left in charge of the machine.

At first sight, those cliffs seemed completely unscalable, but to anyone with a good head for heights, climbing is easy on a world where all weights are only a sixth of their normal value. The real danger in lunar mountaineering lies in overconfidence; a six-hundred-foot drop on the Moon can kill you just as thoroughly as a. hundred-foot fall on Earth.

We made our first halt on a wide ledge about four thousand feet above the plain. Climbing had not been very difficult, but my limbs were stiff with the unaccustomed effort, and I was glad of the rest. We could still see the tractor as a tiny metal insect far down at the foot of the cliff, and we reported our progress to the driver before starting on the next ascent.

Inside our suits it was comfortably cool, for the refrigeration units were fighting the fierce sun and carrying away the body-heat of our exertions. We seldom spoke to each other, except to pass climbing instructions and to discuss our best plan of ascent. I do not know what Garnett was thinking, probably that this was the craziest goose-chase he had ever embarked upon. I more than half agreed with him, but the joy of climbing, the knowledge that no man had ever gone this way before and the exhilaration of the steadily widening landscape gave me all the reward I needed.

I don’t think I was particularly excited when I saw in front of us the wall of rock I had first inspected through the telescope from thirty miles away. It would level off about fifty feet above our heads, and there on the plateau would be the thing that had lured me over these barren wastes. It was, almost certainly, nothing more than a boulder splintered ages ago by a falling meteor, and with its cleavage planes still fresh and bright in this incorruptible, unchanging silence.

There were no hand-holds on the rock face, and we had to use a grapnel. My tired arms seemed to gain new strength as I swung the three-pronged metal anchor round my head and sent it sailing Lip toward the stars. The first time it broke loose and came falling slowly back when we pulled the rope. On the third attempt, the prongs gripped firmly and our combined weights could not shift it.

Garnett looked at me anxiously. I could tell that he wanted to go first, but I smiled back at him through the glass of my helmet and shook my head. Slowly, taking my time, I began the final ascent.

Even with my space-suit, I weighed only forty pounds here, so I pulled myself up hand over hand without bothering to use my feet. At the rim I paused and waved to my companion, then I scrambled over the edge and stood upright, staring ahead of me.

You must understand that until this very moment I had been almost completely convinced that there could be nothing strange or unusual for me to find here. Almost, but not quite; it was that haunting doubt that had driven me forward. Well, it was a doubt no longer, but the haunting had scarcely begun.

I was standing on a plateau perhaps a hundred feet across. It had once been smooth-too smooth to be natural-but falling meteors had pitted and scored its surface through immeasurable eons. It had been leveled to support a glittering, roughly pyramidal structure, twice as high as a man, that was set in the rock like a gigantic, many-faceted jewel.

Probably no emotion at all filled my mind in those first few seconds. Then I felt a great lifting of my heart, and a strange, inexpressible joy. For I loved the Moon, and now I knew that the creeping moss of Aristarchus and Eratosthenes was not the only life she had brought forth in her youth. The old, discredited dream of the first explorers was true. There had, after all, been a lunar civilization- and I was the first to find it. That I had come perhaps a hundred million years too late did not distress me; it was enough to have come at all.

My mind was beginning to function normally, to analyze and to ask questions. Was this a building, a shrine-or something for which my language had no name? If a building, then why was it erected in so uniquely inaccessible a spot? I wondered if it might be a temple, and I could picture the adepts of some strange priesthood calling on their gods to preserve them as the life of the Moon ebbed with the dying oceans, and calling on their gods in vain.

I took a dozen steps forward to examine the thing more closely, but some sense of caution kept me from going too near. I knew a little of archaeology, and tried to guess the cultural level of the civilization that must have smoothed this mountain and raised the glittering mirror surfaces that still dazzled my eyes.

The Egyptians could have done it, I thought, if their workmen had possessed whatever strange materials these far more ancient architects had used. Because of the thing’s smallness, it did not occur to me that I might be looking at the handiwork of a race more advanced than my own. The idea that the Moon had possessed intelligence at all was still almost too tremendous to grasp, and my pride would not let me take the final, humiliating plunge.

And then I noticed something that set the scalp crawling at the back of my neck-something so trivial and so innocent that many would never have noticed it at all. I have said that the plateau was scarred by meteors; it was also coated inches-deep with the cosmic dust that is always filtering down upon the surface of any world where there are no winds to disturb it. Yet the dust and the meteor scratches ended quite abruptly in a wide circle enclosing the little pyramid, as though an invisible wall was protecting it from the ravages of time and the slow but ceaseless bombardment from space.

There was someone shouting in my earphones, and I realized that Garnett had been calling me for some time. I walked unsteadily to the edge of the cliff and signaled him to join me, not trusting myself to speak. Then I went back toward that circle in the dust. I picked up a fragment of splintered rock and tossed it gently toward the shining enigma. If the pebble had vanished at that invisible barrier I should not have been surprised, but it seemed to hit a smooth, hemispherical surface and slide gently to the ground.

I knew then that I was looking at nothing that could be matched in the antiquity of my own race. This was not a building, but a machine, protecting itself with forces that had challenged Eternity. Those forces, whatever they might be, were still operating, and perhaps I had already come too close. I thought of all the radiations man had trapped and tamed in the past century. For all I knew, I might be as irrevocably doomed as if I had stepped into the deadly, silent aura of an unshielded atomic pile.

I remember turning then toward Garnett, who bad joined me and was now standing motionless at my side. He seemed quite oblivious to me, so I did not disturb him but walked to the edge of the cliff in an effort to marshal my thoughts. There below me lay the Mare Crisium-Sea of Crises, indeed-strange and weird to most men, but reassuringly familiar to me. I lifted my eyes toward the crescent Earth, lying in her cradle of stars, and I wondered what her clouds had covered when these unknown builders had finished their work. Was it the steaming jungle of the Carboniferous, the bleak shoreline over which the first amphibians must crawl to conquer the land-or, earlier still, the long loneliness before the coming of life?

Do not ask me why I did not guess the truth sooner-the truth, that seems so obvious now. In the first excitement of my discovery, I had assumed without question that this crystalline apparition had been built by some race belonging to the Moon’s remote past, but suddenly, and with overwhelming force, the belief came to me that it was as alien to the Moon as I myself.

In twenty years we had found no trace of life but a few degenerate plants. No lunar civilization, whatever its doom, could have left but a single token of its existence.

I looked at the shining pyramid again, and the more remote it seemed from anything that had to do with the Moon. And suddenly I felt myself shaking with a foolish, hysterical laughter, brought on by excitement and overexertion: for I had imagined that the little pyramid was speaking to me and was saying: “Sorry, I’m a stranger here myself.”

It has taken us twenty years to crack that invisible shield and to reach the machine inside those crystal walls. What we could not understand, we broke at last with the savage might of atomic power and now I have seen the fragments of the lovely, glittering thing I found up there on the mountain.

They are meaningless. The mechanisms-if indeed they are mechanisms-of the pyramid belong to a technology that lies far beyond our horizon, perhaps to the technology of para-physical forces.

The mystery haunts us all the more now that the other planets have been reached and we know that only Earth has ever been the home of intelligent life in our Universe. Nor could any lost civilization  of our own world have built that machine, for the thickness of the meteoric dust on the plateau has enabled us to measure its age. It was set there upon its mountain before life had emerged from the seas of Earth.

When our world was half its present age, something from the stars swept through the Solar System, left this token of its passage, and went again upon its way. Until we destroyed it, that machine was still fulfilling the purpose of its builders; and as to that purpose, here is my guess.

Nearly a hundred thousand million stars are turning in the circle of the Milky Way, and long ago other races on the worlds of other suns must have scaled and passed the heights that we have reached. Think of such civilizations, far back in time against the fading afterglow of Creation, masters of a universe so young that life as yet had come only to a handful of worlds. Theirs would have been a loneliness we cannot imagine, the loneliness of gods looking out across infinity and finding none to share their thoughts.

They must have searched the star-clusters as we have searched the planets. Everywhere there would be worlds, but they would be empty or peopled with crawling, mindless things. Such was our own Earth, the smoke of the great volcanoes still staining the skies, when that first ship of the peoples of the dawn came sliding in from the abyss beyond Pluto. It passed the frozen outer worlds, knowing that life could play no part in their destinies. It came to rest among the inner planets, warming themselves around the fire of the Sun and waiting for their stories to begin.

Those wanderers must have looked on Earth, circling safely in the narrow zone between fire and ice, and must have guessed that it was the favorite of the Sun’s children. Here, in the distant future, would be intelligence; but there were countless stars before -them still, and they might never come this way again.

So they left a sentinel, one of millions they have scattered throughout the Universe, watching over all worlds with the promise of life. It was a beacon that down the ages has been patiently signaling the fact that no one had discovered it.

Perhaps you understand now why that crystal pyramid was set upon the Moon instead of on the Earth. Its builders were not concerned with races still struggling up from savagery. They would be interested in our civilization only if we proved our fitness to survive -by crossing space and so escaping from the Earth, our cradle. That is the challenge that all intelligent races must meet, sooner or later. It is a double challenge, for it depends in turn upon the conquest of atomic energy and the last choice between life and death.

Once we had passed that crisis, it was only a matter of time before we found the pyramid and forced it open. Now its signals have ceased, and those whose duty it is will be turning their minds upon Earth. Perhaps they wish to help our infant civilization. But they must be very, very old, and the old are often insanely jealous of the young.

I can never look now at the Milky Way without wondering from which of those banked clouds of stars the emissaries are coming. If you will pardon so commonplace a simile, we have set off the fire-alarm and have nothing to do but to wait.

I do not think we will have to wait for long.

The End

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