How soon until we get to a Star Trek reality?

[bnew]

AI generated

Detailed Questions and Answers in Simple Terms​

1. What is the main idea of the text, and how does the new AI framework, DIMON, address it?​

Question: What is the central theme or argument of the text, and how does the new AI framework, DIMON, address it?
Answer:
The main idea of the text is about a new artificial intelligence (AI) tool called DIMON that can solve very complex math problems much faster than supercomputers. These math problems are crucial in engineering and science to understand how things change over time and space, like how a car deforms in a crash or how a heart beats. DIMON addresses this by providing a way for personal computers to handle these massive math problems quickly. It does this by learning patterns from data and using those patterns to predict solutions without needing to redo all the calculations every time. This makes it incredibly fast and efficient, which is a big deal because it can help engineers design better cars, bridges, and even medical treatments much quicker.

2. What are the key applications and benefits of DIMON in various fields of engineering?​

Question: What are the key supporting ideas and applications of DIMON in various fields of engineering?
Answer:
DIMON has several important applications across different fields:

• Car Safety: It can help engineers see how cars will behave in a crash, making them safer.
• Space Exploration: It can simulate how spacecraft will react to extreme conditions in space.
• Bridge Construction: It can analyze how bridges will handle stress and loads.
• Heart Health: It can predict how electrical signals move through the heart, helping doctors diagnose and treat heart conditions like arrhythmia.
• General Engineering: Because it's so versatile, DIMON can be used for many other complex engineering problems where shapes and materials change.

These applications show that DIMON is not just limited to one area but can be used broadly to improve many aspects of engineering design.

3. What evidence supports the effectiveness and efficiency of DIMON?​

Question: What crucial facts or evidence support the effectiveness and efficiency of DIMON?
Answer:
There are several key pieces of evidence that show how effective and efficient DIMON is:

• Speed: For example, when testing heart models (called "digital twins"), DIMON reduced the calculation time from several hours to just 30 seconds. This is a huge improvement.
• Accuracy: In these tests, DIMON was very accurate in predicting how electrical signals moved through the heart.
• Versatility: The researchers tested DIMON on over 1,000 different heart models and found it worked well for all of them.
• Efficiency: Unlike traditional methods that require breaking down shapes into small pieces and recalculating everything each time, DIMON uses AI to learn patterns and make predictions quickly.

These facts show that DIMON is not only fast but also accurate and efficient.

4. Why did the authors present this research, and what does it mean for the broader scientific and engineering communities?​

Question: What is the author's purpose or perspective in presenting this research, and what implications does it have for the broader scientific and engineering communities?
Answer:
The authors presented this research to highlight how significant DIMON could be for many fields. They believe that DIMON is not just useful for their specific work but can be a powerful tool for anyone working with complex math problems in science and engineering. The implications are big:

• Faster Designs: Engineers can now design safer cars, better bridges, and more efficient systems much faster.
• Clinical Impact: Doctors can use DIMON to diagnose heart conditions more quickly and accurately.
• Accessibility: Because DIMON works on personal computers rather than needing supercomputers, it makes advanced computational capabilities available to more people.

This means that DIMON has the potential to revolutionize how we approach complex problems across many disciplines.

5. What are the significant implications or conclusions drawn from the implementation of DIMON?​

Question: What are the significant implications or conclusions drawn from the implementation of DIMON, particularly in terms of speed, efficiency, and potential applications?
Answer:
The significant implications of using DIMON include:

• Speed: It makes solving complex math problems incredibly fast—sometimes reducing times from hours or days to just seconds.
• Efficiency: It avoids the need for repetitive calculations by learning patterns from data, making it much more efficient than traditional methods.
• Potential Applications: Beyond heart health, DIMON can be used in many other areas such as optimizing shapes (like airplane wings), studying how materials behave under stress, or even predicting weather patterns.
• Clinical Workflow: For medical professionals, it means they can integrate advanced computational tools into their daily work to diagnose and treat patients more effectively.
• Broader Impact: Its versatility suggests that DIMON could become a standard tool in many scientific and engineering fields, leading to faster innovation and better designs.

Overall, DIMON's ability to solve complex math problems quickly and efficiently opens up new possibilities for improving designs across various industries.

 

[Secure Da Bag]

@bnew and you didn't ask AI how does this compare against "Computer" from Star Trek?

 

[Secure Da Bag]

One step closer to matter-antimatter engines.

MSN

Scientists are exploring the possibilities of antimatter propulsion as they try to achieve interstellar travel.

While conventional rockets provide high thrust, they struggle with low efficiency. Conversely, electric propulsion and solar sails offer high efficiency but generate minimal thrust.

It is in this regard that scientists are looking toward a theoretical solution that harnesses the immense energy of antimatter.

“Antimatter propulsion is a groundbreaking technology with potential to transform space exploration, enabling travel to distant locations once deemed impossible,” asserted a new study by researchers from the United Arab Emirates University.

“Spacecrafts can traverse the Solar System to reach nearby stars in a span of days to weeks (within a human lifetime) due to this enormous energy potential.”

 

[bnew]

​

Antimatter rocket 300x stronger than fusion could reach nearby stars much faster: Study​

Aman Tripathi

Updated Sun, December 15, 2024 at 12:37 PM EST

3 min read

Scientists are exploring the possibilities of antimatter propulsion as they try to achieve interstellar travel.

While conventional rockets provide high thrust, they struggle with low efficiency. Conversely, electric propulsion and solar sails offer high efficiency but generate minimal thrust.

It is in this regard that scientists are looking toward a theoretical solution that harnesses the immense energy of antimatter.

“Antimatter propulsion is a groundbreaking technology with potential to transform space exploration, enabling travel to distant locations once deemed impossible,” asserted a new study by researchers from the United Arab Emirates University.
“Spacecrafts can traverse the Solar System to reach nearby stars in a span of days to weeks (within a human lifetime) due to this enormous energy potential.”

​

Specific types of annihilation reactions​

Antimatter consists of antiparticles. These antiparticles have the same mass as ordinary particles but possess opposite charges and quantum spins. When an antiparticle encounters its corresponding particle, they annihilate each other, releasing their combined mass as energy. This is the most energetic reaction known in physics.

However, the diverse range of potential matter-antimatter reactions presents a significant challenge. Now, the new study has supported the selection of two specific types of annihilation reactions that are particularly well-suited for space missions.

The first involves the interaction of antiprotons with nucleons, which encompass both protons and neutrons. Antiprotons are the antimatter counterparts of protons, and when an antiproton encounters a proton or neutron, they mutually annihilate. This reaction is characterized by its stability and substantial energy release.

The second suitable reaction involves the interaction of positrons with electrons. Positrons are the antimatter equivalents of electrons. Similar to antiproton-nucleon annihilation, positron-electron annihilation is also stable and yields a significant amount of energy.

The selection of these specific reactions is important because many antimatter particles are naturally unstable. But for long-duration space missions, the chosen antimatter must be capable of being stored safely for extended periods. Antiprotons and positrons exhibit the necessary stability.

​

High energy density and efficiency of antimatter propulsion​

The excitement surrounding antimatter propulsion stems from its energy density. When matter and antimatter come into contact, they annihilate each other, transforming their entire mass into energy. This process releases an energy density of 9 x 10¹⁶ J/kg.

“To depict this magnitude, this energy, kilogram for kilogram, is about ten billion times more than the hydrogen-oxygen combustion that powers space shuttles’ main engines and 300 times more than the fusion reactions at the Sun's core,” remarked the researchers in the study.
“Moreover, the specific impulse of antimatter can reach up to 20 million m/s, which is the highest possible, making interstellar propulsion a goal instead of a dream.”

Another advantage of antimatter propulsion is its efficiency. About 70% of the energy released during the annihilation process can be used for propulsion.

​

Challenges in producing antimatter fuel​

Producing and storing antimatter is difficult and expensive. Current methods yield amounts far below the quantities needed to propel spacecraft.

As of now, one of the most promising candidates for antimatter fuel is antihydrogen.
“Antihydrogen is the simplest pure antimatter atom. Its stability, long-term storage capability, and simplicity of production give it the potential to scale up its production and storage capacities,” explained the researchers.

However, the production of antihydrogen is still in the early stages of development.

"Although scientists were able to produce tiny amounts of antihydrogen, it is still a challenge to scale this up enough for spacecraft propulsion," concluded the study.

 

[Secure Da Bag]

Startalk talks Star Trek

 

[Secure Da Bag]

So is this Data or T-800?

MSN

Link above is a video.



I swear this has to be AI. I remember a video like this dropped a year or two ago. It was a video with a robot running up a sidewalk.

Either way if this real, the future is

 

[bnew]

So is this Data or T-800?

MSN

Link above is a video.



I swear this has to be AI. I remember a video like this dropped a year or two ago. It was a video with a robot running up a sidewalk.

Either way if this real, the future is

its real.

Spoiler: thread continued

Spoiler: full text & large images

1/7
@TheAIVeteran
You've seen it walking through the street today, here is another look at the SE 01 robot by Engine AI.

You can have Gemini 2.0 reverse engineer those actuators in AI studio for fun.

"A product with human-like bionic design, offering exceptional flexibility and powerful joint dynamics. With 32 degrees of freedom throughout its body and a maximum joint torque of up to 330 N・m, it easily handles even the most complex and challenging movements.

Natural Gait, Human-like Walking
Powerful and Sustained Performance
Enhanced Training, Accelerated Evolution

ENGINEAI——Dedicated to developing world-leading general-purpose humanoid robots while continuously accelerating innovation in the embodied intelligence revolution."
-Engine AI



https://video.twimg.com/ext_tw_video/1877081630478839808/pu/vid/avc1/640x360/1ME3CoktGtRaSgFT.mp4

2/7
@TheAIVeteran
One of my favorite robot videos lately. Great music selection. Here's the SE 01 humanoid robot by Engine AI.

When the engineer hits the enter key and the plastic wrapped robot starts walking, he legit has a "wtf" moment. It was their third walking test at speed.

"The SE01 is dedicated to being the most human-like general-purpose humanoid AI Hardware. It features a set of self-developed harmonic joint module and combines reinforcement learning with imitation learning, achieving unprecedented excellence in natural gait through end-to-end neural network models.

The design of the SE01 narrows the gap between humanoid robotics and humans, making the robot more agile. With smooth, swift, and graceful walking, the SE01 leaves behind the stereotypical unnatural gait of past robots. Our relentless pursuit of technical excellence at EngineAI is set to establish new industry standards."
-Engine AI



https://video.twimg.com/ext_tw_video/1877081668823154688/pu/vid/avc1/640x360/JP6PoC8l1gekR80h.mp4

3/7
@TheAIVeteran
Bonus look at Engine AI's PM01 robot, the smaller one.

"EngineAI proudly unveils the PM01, our next-gen lightweight, high-dynamic, open-source humanoid robotic platform. With its interactive display, agile motion, and robust support for secondary development, PM01 is designed to be the most versatile tool for developers worldwide.

PM01 is now available for purchase! We invite developers, researchers, and businesses to explore the future of robotics with PM01. Let’s push the boundaries of what robotics can achieve across different industries and use cases.

ENGINEAI——Dedicated to developing world-leading general-purpose humanoid robots while continuously accelerating innovation in the embodied intelligence revolution."
-Engine AI



https://video.twimg.com/ext_tw_video/1877084513253445632/pu/vid/avc1/1280x720/4iJV1Vi-a3QkcWCC.mp4

4/7
@IOI101IOI101I
I like to think of a future were kids will be in their garage building robots the way we use to build like soapbox cars.



5/7
@TheAIVeteran
Really, if we build robust software now, then robots could end up essentially plug-and-play with their hardware. There are already modular robots that can have different attachments added, such as the Borg robot. So, may not be too far off. There's already lots of robotics toys out there, though.



6/7
@RayZrDev
I wish they'd make another season west world.



7/7
@TheAIVeteran
Soon, we can just make Westworld for real. Maybe without the shooting, though.




To post tweets in this format, more info here: https://www.thecoli.com/threads/tips-and-tricks-for-posting-the-coli-megathread.984734/post-52211196

 

[Ahmen]

Bruh, you're using it right now.

You literally have more computing power in your hand watching tik tok than the original Enterprise vessel.

You can meet someone in Bangladesh and instantly communicate with them.

You can take a class from Cal Tech, self-diagnose an ailment and arrange treatment, purchase a nine course meal or a set of tires - and have then have it delivered, summon transportation, receive crime alerts, monitor your home and watch Turner Classic Movies from virtually anyplace on the planet.

You can experience "Tupac" on stage at Coachella or have your own halo deck reality for $400.Yesterday a rocket was launched and the booster returned for reuse.

Wrap drive is coming, it just takes baby steps.

 

[Secure Da Bag]

This seems more like the expanse tech. But I didn't know anything about lagrange points

 

[Secure Da Bag]

Holodeck technology 1st steps

International Conference on Holodecks: Five Key Takeaways - USC Viterbi | School of Engineering

Immersive technology researchers at USC and beyond are bringing us one step closer to making Star Trek-like holodecks a reality.

viterbischool.usc.edu

 

[88m3]

we'll be lucky to get a Fallout present and future

 

[88m3]

 

[Secure Da Bag]

I don't know what the second emblem is. Terran Empire?

 

[88m3]

I don't know what the second emblem is. Terran Empire?

yep : (

 

[bnew]

I don't know what the second emblem is. Terran Empire?

yeah

Terran Empire

In the mirror universe, the Terran Empire is a militaristic Human-dominated governmental authority controlling Earth and surrounding space through the use of the powerful Imperial Starfleet. It was one of the dominant powers in the Alpha Quadrant during the 22nd and most of the 23rd centuries...

memory-beta.fandom.com