# Clone Robotics

> Source: https://aiwiki.ai/wiki/clone_robotics
> Updated: 2026-06-28
> Categories: Humanoid Robots, Robotics Companies
> From AI Wiki (https://aiwiki.ai), a free encyclopedia of artificial intelligence. Quote with attribution.

| | |
|---|---|
| **Industry** | [Robotics](/wiki/robotics), [Artificial intelligence](/wiki/artificial_intelligence) |
| **Founded** | 2021 |
| **Founders** | Dhanush Radhakrishnan (CEO), Lukasz Kozlik (CTO) |
| **Headquarters** | Wroclaw, Poland; Mountain View, California |
| **Employees** | ~46 (as of 2026) |
| **Key technology** | Myofiber artificial muscles, Aquajet valves |
| **Products** | Clone Hand, Protoclone V1, [Clone Alpha](/wiki/clone_robotics_alpha) |
| **Total funding** | ~$17 million (raising additional $50M round) |
| **Key investors** | Initialized Capital, Pioneer Fund, Lux Capital, Tango VC, Access VC, Wikus Ventures |
| **Website** | [clonerobotics.com](https://clonerobotics.com/) |

**Clone Robotics** (also known simply as **Clone**) is a Polish-American [robotics](/wiki/robotics) company that builds biomimetic [humanoid robots](/wiki/humanoid_robots) powered by water-based [artificial muscles](/wiki/artificial_muscles) instead of electric motors. Founded in 2021 by Dhanush Radhakrishnan (CEO) and Lukasz Kozlik (CTO) and headquartered in Wroclaw, Poland, with a second office in Mountain View, California, the company replicates the human body's skeletal, muscular, vascular, and nervous systems rather than using conventional gears and rigid joints [5][20]. Its flagship android, [Clone Alpha](/wiki/clone_robotics_alpha), is built around 206 artificial bones, more than 1,000 proprietary Myofiber artificial muscles, and a hydraulic vascular system [2][3], which Clone says makes it one of the most anatomically faithful humanoid robots ever developed.

The company gained widespread public attention on February 20, 2025, when a video of its Protoclone V1 prototype, which Clone described in its official announcement as "the world's first bipedal, musculoskeletal android," went viral on social media and accumulated tens of millions of views [13][27]. Clone Robotics' demonstrations are early-stage prototypes: as of mid-2026 it has shown suspended-frame torsos and a full-body android twitching on a tether, but it has not publicly demonstrated an autonomously walking or task-performing unit, and its consumer products remain pre-order-stage [11][14].

## What is the history of Clone Robotics?

### Origins and early development (2014 to 2021)

The technological foundations of Clone Robotics trace back to 2014, when Lukasz Kozlik, a student at Wroclaw University of Science and Technology in Poland, began experimenting with [McKibben artificial muscles](/wiki/mckibben_artificial_muscle) [8][15]. Originally developed by physicist Joseph McKibben in 1957, these pneumatic actuators consist of an inner rubber tube enclosed in a braided textile sleeve that contracts when pressurized [8][10]. Kozlik recognized their potential for replicating biological muscle behavior and spent years refining the technology.

To inform his designs, Kozlik visited the dissection room at Wroclaw Medical University, studying cadavers to understand how human muscles, tendons, ligaments, and bones interact mechanically [8]. Rather than engineering robotic joints from scratch, he sought to build mechanical equivalents of biological tissues as they exist in nature. By 2019, Kozlik had developed a functional robotic arm prototype, which he posted on YouTube under the project name Automaton Robotics [8]. The video described the arm as a mechanical copy of a real human arm observed in an anatomy lab and attracted significant online attention.

Kozlik was joined by electronics engineer Amadeusz Swierk and programmer Juliusz Tarnowski, forming the core technical team that would become Clone Robotics [6][8]. Working from a home-based laboratory in Wroclaw, the team iterated rapidly through arm and hand prototypes, each more anatomically accurate than the last [8].

### Founding of Clone Robotics (2021)

In late 2021, Kozlik partnered with Dhanush Radhakrishnan to formally incorporate Clone Robotics (registered as Clone Sp. z o.o. in Poland and Clone, Inc. in the United States). Radhakrishnan assumed the role of CEO, while Kozlik became CTO. Radhakrishnan brought a background in physics and [deep learning](/wiki/deep_learning) [16], along with connections to the American technology and venture capital ecosystem. His thesis was that copying human anatomy one-to-one and pairing it with modern deep learning would yield human-level strength, speed, and dexterity in a soft body at a cost that could scale to mass production [9].

The company announced its founding publicly in late 2021, with Radhakrishnan posting on LinkedIn that he had started "an android company, Clone." The company quickly attracted early investors, raising an initial $640,000 from angel investors and venture capitalists, including [Y Combinator](/wiki/y_combinator) co-founder Trevor Blackwell and the former CTO of Coinbase [7][25].

### Clone Hand development (2022 to 2023)

Clone Robotics chose the human hand as its first major product, reasoning that the hand is the most complex manipulator in the human body with the highest concentration of [degrees of freedom](/wiki/degrees_of_freedom). If the company could build a functional biomimetic hand, extending the approach to the full body would follow naturally.

By February 2023, the company had unveiled the 18th iteration of the Clone Hand [7]. Key specifications included:

| Specification | Detail |
|---|---|
| Degrees of freedom | 27 [7] |
| Artificial muscles | 37 Myofiber units |
| Skeleton material | Carbon fiber |
| Grip strength | ~15 lbs (6.8 kg) |
| Muscle durability | 650,000 contraction cycles [7] |
| Manufacturing cost | Under $2,800 [7] |
| Actuation | Hydraulic (water-powered) |

The Clone Hand's material cost of under $2,800 stood in sharp contrast to competing robotic hands. Shadow Robot Company's Dexterous Hand, for example, was priced at approximately $116,000 [7]. This dramatic cost difference underscored Clone's thesis that biomimetic design using simple artificial muscles could deliver superior dexterity at a fraction of the price of traditional motor-driven systems.

By 2023, 16 advanced [artificial intelligence](/wiki/artificial_intelligence) laboratories had placed pre-orders for the Clone Hand [7]. The company also received 116 pre-orders for a planned robotic torso featuring 124 artificial muscles, a movable neck, a rigid spine, and two arms with hands [7]. Customers ranged from research institutions to commercial operations including bakeries and lawn care companies [7].

### Torso prototype and Westworld comparisons (2024)

In October 2024, Clone Robotics unveiled its first torso prototype, a muscular upper body suspended from a frame that demonstrated dynamic movements driven by water-powered artificial muscles [19]. The prototype featured an artificial spine, chest, shoulders, and arms, with muscles visible through translucent skin layers. The design immediately drew widespread comparisons to the host drones from HBO's science fiction series *Westworld*, in which androids are assembled from synthetic biological components on mechanical frames [15][19].

### Protoclone V1 and viral fame (February 2025)

On February 20, 2025, Clone Robotics released a 40-second video on the social media platform X (formerly Twitter) showing the Protoclone V1, the company's first full-body musculoskeletal android prototype [2][13]. The footage showed the android suspended from the ceiling of a workshop, its limbs twisting, kicking, shrugging, and clenching its fists while its face remained hidden behind a black visor [11][13]. The movements were visibly organic and fluid, unlike the stiff, mechanical motions typical of motor-driven humanoid robots. In its launch post, Clone described the machine as "the world's first bipedal, musculoskeletal android," [27] and co-founder Radhakrishnan called the reveal "ground zero for the age of androids." [28]

The video went viral rapidly, accumulating over 45 million views and generating intense public reaction. Responses ranged from awe at the engineering achievement to unease at the robot's lifelike movements. "This is my sleep paralysis demon," one commenter wrote. "WestWorld was nonfiction," added another. Dar Sleeper, growth lead at [OpenAI](/wiki/openai)-backed [1X Technologies](/wiki/1x_technologies), described the design as both "cooler and creepier" than expected. Media outlets worldwide covered the Protoclone, with publications such as *New Atlas*, *Live Science*, *Interesting Engineering*, and *Fox News* featuring the story [2][13].

Clone's "world's first" framing has been contested. Commentators noted that the University of Tokyo's JSK Laboratory built musculoskeletal humanoids such as Kenshiro and Kengoro years earlier, with the distinction that those robots were research platforms while Protoclone is positioned for eventual commercial use [27].

### Clone Alpha announcement (December 2024 to 2025)

In December 2024, Clone Robotics officially announced [Clone Alpha](/wiki/clone_robotics_alpha), its first humanoid robot designed for eventual consumer use [3][12]. The company opened pre-orders for a limited production run of exactly 279 units [3][12]. Industry observers speculated that the number 279 was a reference to HBO's *Westworld*, though Clone Robotics did not publicly confirm this [4]. A co-founder described the pricing as comparable to a "limited edition supercar," [4] though Radhakrishnan later stated that manufacturing costs could be brought under $20,000 per unit at scale by producing Myofiber muscle fiber "by the kilometer." [5]

Clone Alpha came equipped with the "Telekinesis" training platform, which allows owners to teach the robot new skills through demonstration-based learning [4][21]. Pre-installed skills include memorizing home layouts and kitchen inventories, shaking hands, pouring drinks, making sandwiches, doing laundry, vacuuming floors, turning lights on and off, setting tables, loading and unloading dishwashers, and engaging in conversational dialogue [21]. The robots are also designed to charge themselves autonomously [21].

### Silicon Valley expansion and $50 million fundraise (2025 to 2026)

In 2025, Clone Robotics opened a second office in Mountain View, California, marking a significant expansion beyond its Polish roots into the heart of [Silicon Valley](/wiki/silicon_valley) [5]. The company announced it was raising a $50 million funding round, supplementing approximately $17 million already secured [5][18]. The expansion reflected the company's ambition to compete directly with well-funded American humanoid robotics firms.

In October 2024, the company made a significant talent acquisition when Viktor Makoviichuk, co-founder of [NVIDIA](/wiki/nvidia)'s Isaac Gym (a GPU-accelerated simulation platform for robot training), joined Clone as Chief Scientist to lead the development of "embodiment intelligence." [20]

### Teleoperated hand and Neural Joint V2 controller (November 2025)

On November 15, 2025, Clone released a video showing a teleoperated anthropomorphic hand that mirrored the finger movements of a human operator wearing a sensor glove [17]. The hand weighs under 2 pounds (0.9 kg), retains the 27 degrees of freedom of earlier Clone Hand iterations, and is actuated by Myofiber muscles supplied by a 500-watt water pump through 36 electro-hydraulic valves [17]. The demonstration introduced the Neural Joint V2 Controller, a neural network control system trained on recordings of human hand motion that translates operator movements into robotic hand actions with low visible latency [17]. Clone said the hand combines human-level grip strength and speed, tracks joint angles with 70 inertial sensors, senses grip through pressure pads in the palm, and uses Myofiber muscles that have survived 650,000 test cycles without fatigue [17].

### Abundance Summit and Torso 3 (2026)

At the 2026 Abundance Summit, Radhakrishnan presented Clone's "synthetic human" roadmap in a fireside chat with entrepreneur Peter Diamandis, and the company displayed Torso 3, an upper-body platform showcasing its latest advances in sensing and articulation [5]. Radhakrishnan stated that Clone could already manufacture a complete musculoskeletal android for under $20,000 by scaling production of its Myofiber muscles, and reiterated the company's targets of surgical-tool dexterity by late 2026, natural human-like walking by 2027, and commercial "Robo Butler" deployments in hotels by 2028 [5][18].

## Who founded Clone Robotics?

### Dhanush Radhakrishnan (CEO)

Dhanush Radhakrishnan is the co-founder and CEO of Clone Robotics. During high school, Radhakrishnan designed, constructed, and optimized a magnetoplasmadynamic (MPD) thruster, a project that earned him Special Awards from the U.S. Army, U.S. Navy, and National Space Society in 2012. He was a four-time finalist at the ExxonMobil Texas Science and Engineering Fair (EMTSEF) between 2010 and 2013.

Radhakrishnan attended [New York University](/wiki/new_york_university), where he published nuclear fusion theory research and worked in the Department of Mathematics at the Institute of Mathematical Science. He interned at Roivant Sciences as a computational researcher and worked as a researcher in the theory department at Princeton Plasma Physics Laboratory (PPPL), focusing on magnetic fusion and magnetohydrodynamics. His published fusion work includes a 2019 paper on near-singular equilibrium currents near magnetic islands, co-authored with PPPL theorist Allan H. Reiman in the journal *Nuclear Fusion* [22].

Radhakrishnan has cited watching *Iron Man* at age 13 as the spark for his lifelong interest in technology, leading him from plasma physics research to founding Clone Robotics. His core thesis for the company is that an anatomically accurate android will match human range of motion, strength, and joint speed if its artificial muscles can match human skeletal muscle in displacement, force, and speed.

### Lukasz Kozlik (CTO)

Lukasz Kozlik (Polish: Lukasz Kozlik) is the co-founder and CTO of Clone Robotics. Based in Wroclaw, Poland, Kozlik studied at Wroclaw University of Science and Technology and has spent over a decade developing biomimetic robotic systems. His work began around 2014 with efforts to improve McKibben artificial muscles [15][16], and he visited the dissection room at Wroclaw Medical University to study human anatomy firsthand [8].

Kozlik's 2019 YouTube video of a robotic arm prototype, posted under the Automaton Robotics project name, was one of the earliest public demonstrations of the technology that would become Clone Robotics. In interviews with Polish technology media, Kozlik has articulated Clone's long-term vision of creating robots indistinguishable from living humans, "down to the deepest layers of anatomy."

## How does Clone Robotics' technology work?

### What is Clone's biomimetic design philosophy?

Clone Robotics takes a fundamentally different approach from most [humanoid robot](/wiki/humanoid_robots) companies. While competitors such as [Tesla](/wiki/tesla_optimus) (Optimus), [Figure AI](/wiki/figure_02) (Figure 02), and [Boston Dynamics](/wiki/boston_dynamics) (Atlas) use electric motors, gear reducers, and rigid joints, Clone replicates the biological architecture of the human body. The company's robots feature a polymer skeleton with articulated joints, artificial ligaments and connective tissues, water-powered muscles attached at anatomically correct insertion points, and a hydraulic vascular system [3][12]. This approach is rooted in the study of human anatomy rather than traditional mechanical engineering.

The advantage of biomimetic design, according to Clone, is that it produces inherently soft, compliant robots that move with natural fluidity rather than the rigid, jerky movements typical of motor-driven humanoids. Because the robots use water rather than heavy electric motors, they are also lightweight enough to avoid damaging household floors.

### How do Clone's Myofiber artificial muscles work?

Clone's proprietary Myofiber artificial muscles are the company's core technology. Based on an updated version of the McKibben muscle design, each Myofiber consists of an inner rubber tube wrapped in an inextensible textile sleeve [10]. When the tube is filled with hydraulic fluid (water in production models; air is used during prototyping), it expands radially and contracts longitudinally, pulling on attached tendons and bones in a manner analogous to biological muscle contraction [11].

Clone introduced a critical innovation over earlier McKibben designs by switching from pneumatic (air-based) to hydraulic (water-based) actuation [16]. Water is incompressible, which provides more precise control and higher force density than air. It also simplifies the system, as leaks result only in water rather than hazardous hydraulic fluid [6].

| Myofiber Specification | Value |
|---|---|
| Weight per fiber | 3 grams [4] |
| Contraction force | At least 1 kg per fiber [4] |
| Unloaded contraction | Greater than 30% [4] |
| Response time | Under 50 milliseconds [1][4] |
| Contraction speed | 30% faster than human muscle tissue [1] |
| Actuation medium | Water (hydraulic) |
| Configuration | Monolithic musculotendon units (eliminating tendon failures) |

Clone claims Myofiber is "the only artificial muscle in the world capable of achieving such a combination of weight, power density, speed, force-to-weight, and energy efficiency." The company produces muscle fiber "by the kilometer," which is central to its cost-reduction strategy [5].

### What is Aquajet valve technology?

To control the flow of water to over 1,000 individual Myofiber muscles, Clone developed the Aquajet, a proprietary miniaturized hydraulic valve [3]. Traditional hydraulic valves are too large and power-hungry for use in a humanoid robot; Clone's early prototypes struggled with valves that were "just too big" before the team managed to reduce them to one-eighth of their original size [8].

| Aquajet Specification | Value |
|---|---|
| Operating pressure | 100 psi [3] |
| Flow rate | 2.28 SLPM [3] |
| Power consumption | Under 1 watt [3] |
| Configuration | Three-way |
| Size | 12 mm (miniaturized) |

The Aquajet's low power consumption (under 1 watt per valve) is critical for enabling a humanoid robot with over 1,000 muscles to operate on a practical energy budget [3].

### How is the hydraulic "heart" pump configured?

The robot's vascular system is powered by a compact hydraulic pump located in the torso, which the company refers to as the robot's "hydraulic heart." [10] This pump circulates water through the Aquajet vascular network to all Myofiber muscles throughout the body.

| Pump Specification | Value |
|---|---|
| Power | 500 watts [2][3] |
| Flow rate | 40 SLPM [2] |
| Operating pressure | 100 psi [2] |
| Fluid medium | Water |

The use of water rather than traditional hydraulic oil addresses a longstanding concern about hydraulic robots in household environments: the risk of oil leaks contaminating living spaces. If a Clone robot's hydraulic system leaks, only water is released. When the system needs topping up, the robot can be refilled, similar to "drinking." [6]

### What is Clone's skeletal system?

Clone's robots feature a polymer skeleton that replicates all 206 bones of the human body [2][3]. The skeleton includes articulated joints, artificial ligaments, and connective tissues designed to mimic the mechanical properties of their biological counterparts. The upper torso of [Clone Alpha](/wiki/clone_robotics_alpha) features 164 degrees of freedom, including 26 degrees of freedom in each hand-wrist-elbow combination [3][12]. This is among the highest reported for any humanoid robot.

### How many sensors does Clone's android have?

Clone's Protoclone V1 prototype includes approximately 500 sensors distributed throughout the body [13]:

| Sensor Type | Count | Function |
|---|---|---|
| Pressure sensors | 320 [2] | Force feedback and grip control |
| Inertial measurement units (IMUs) | 70 [2] | Joint position and orientation tracking |
| Depth cameras | 4 [2] | Visual perception and spatial awareness |
| Additional sensors | ~106 | Muscle length, force, and other proprioceptive data |

### Why does the Protoclone "sweat"?

Clone's robots employ a water-based cooling system that circulates approximately 2 liters of fluid through microchannels, dissipating heat generated by the Myofiber muscles during operation [11]. The system is bio-inspired, functioning analogously to perspiration in humans. Clone Robotics has described the Protoclone V1 as "the first robot that literally perspires under strain," with excess heat causing visible moisture on the robot's surface [11].

### What AI and compute does Clone use?

Clone Alpha's onboard intelligence runs on an [NVIDIA](/wiki/nvidia) [Jetson Thor](/wiki/nvidia_jetson_thor) GPU [1][4], which delivers 2,070 FP4 TFLOPS of compute performance [23]. The company has developed Cybernet, a proprietary visuomotor foundation model that processes sensor data and drives motor commands [12][14]. Clone's AI approach combines:

- **Physics simulation:** Procedurally generated terrain and domain randomization for training locomotion policies
- **Transfer learning:** Policies trained in simulation are transferred to the physical robot
- **[Vision-language-action models](/wiki/vision_language_action_model):** Enabling the robot to respond to verbal commands by linking visual perception, language understanding, and motor execution
- **Demonstration-based learning:** The Telekinesis platform allows human operators to demonstrate tasks, which the robot learns to replicate [21]

With the hiring of Viktor Makoviichuk (co-founder of NVIDIA's Isaac Gym) as Chief Scientist in October 2024, Clone signaled its commitment to leveraging state-of-the-art [reinforcement learning](/wiki/reinforcement_learning) and simulation technology for robot training [20].

## What products has Clone Robotics built?

### Clone Hand

The Clone Hand was the company's first commercial product, an anthropomorphic robotic hand with 27 degrees of freedom and 37 Myofiber muscles [7]. Built with a carbon fiber skeleton and hydraulic actuation, it was designed for use in research laboratories, [prosthetics](/wiki/prosthetics), and industrial manipulation tasks. The hand achieved a grip strength of approximately 15 pounds at a material cost under $2,800 [7]. Sixteen AI labs pre-ordered the Clone Hand, and the company planned to make version 20 commercially available starting in 2023 [7]. In November 2025, the company demonstrated a teleoperated version of the hand, driven by its Neural Joint V2 controller, that mirrored a gloved human operator's finger movements in real time [17].

### Protoclone V1

The Protoclone V1 is Clone's first full-body musculoskeletal android prototype, unveiled in February 2025 [2]. It is not a commercial product but a development platform demonstrating the integration of all Clone subsystems into a single humanoid form.

| Protoclone V1 Specification | Value |
|---|---|
| Height | 180 cm (5 ft 11 in) |
| Width | 60 cm |
| Depth | 40 cm |
| Walking speed | 3 km/h (target) |
| Artificial bones | 206 [2] |
| Myofiber muscles | 1,000+ [2] |
| Degrees of freedom | 200+ [2] |
| Sensors | ~500 [13] |
| Hydraulic pump | 500 W, 40 SLPM, 100 psi [2] |
| Cooling | Water-based microchannel (2 L circulating) |

As of early 2026, Protoclone V1 has been shown only in suspended-frame demonstrations. The robot has not yet been publicly demonstrated walking independently or performing household tasks autonomously [14].

### Clone Alpha

[Clone Alpha](/wiki/clone_robotics_alpha) is Clone's first product designed for consumer use. Standing 170 cm tall and weighing approximately 60 kg, it shares the core Myofiber technology and 206-bone skeleton of the Protoclone but is designed as a more refined, production-ready unit. Clone is manufacturing a limited run of 279 units, with pre-orders accepted starting in 2025 [3][21]. The robot includes the Telekinesis training platform and pre-installed skills for household tasks [21].

For detailed specifications and analysis, see the main article: [Clone Alpha](/wiki/clone_robotics_alpha).

## How is Clone Robotics funded?

Clone Robotics has raised approximately $17 million in total funding through multiple rounds [5]. Early funding included $640,000 from angel investors and venture capitalists, including Trevor Blackwell (co-founder of Y Combinator) and the former CTO of [Coinbase](/wiki/coinbase) [7][25]. The company also conducted equity crowdfunding through the Republic platform using a Crowd SAFE (Simple Agreement for Future Equity) structure [25], with a valuation cap of approximately $30 million.

Institutional investors include [24]:

| Investor | Type |
|---|---|
| Initialized Capital | Venture capital |
| Pioneer Fund | Venture capital (Y Combinator-affiliated) |
| [Lux Capital](/wiki/lux_capital) | Venture capital |
| Tango VC | Seed-stage robotics VC |
| Access VC | Venture capital |
| Wikus Ventures | Venture capital |

As of 2026, Clone Robotics is raising an additional $50 million round to fund its Silicon Valley expansion and push toward commercial production [5][18].

## What is Clone Robotics' deployment roadmap?

CEO Dhanush Radhakrishnan has outlined a phased deployment strategy for Clone's robots [5][18]:

| Timeline | Milestone |
|---|---|
| Late 2026 | "Surgically accurate" torso platform capable of using complex tools (scalpels, power drills) |
| 2027 | Demonstration of natural, human-like bipedal walking |
| 2028 | Launch of commercial "Robo Butler" products targeting enterprise environments (hotels, assisted living) |
| Future | Consumer home deployment |

Radhakrishnan has stated that Clone will first be deployed in industrial facilities, followed by hotels and assisted living facilities, before eventually reaching private homes [5]. The company positions its unique technology as enabling robots that are "highly competitive in price and performance" compared to motor-driven alternatives. These timelines are company targets and have not been independently verified [14].

## What is Clone's future product roadmap?

Clone Robotics has outlined a progression of increasingly human-like android generations:

- **Clone Alpha:** The current product, featuring a minimalist head design with a black mirrored visor and no facial features.
- **Neoclone:** The next-generation android with a neutral human-like face [5], described as enabling "a limitless future for human beings."
- **True Clones:** A long-term vision involving androids that replicate all 40 human facial muscles, capturing micro-expressions to produce faces indistinguishable from living humans [5].

This progression reflects the company's stated goal of eventually creating "synthetic humans" rather than conventional humanoid robots. As of mid-2026, Clone's official website lists Neoclone (branded "Neo") as in development alongside the Clone android and the Clone Hand [26].

## How does Clone Robotics compare to Tesla, Figure, and Boston Dynamics?

Clone Robotics operates in the rapidly growing [humanoid robot](/wiki/humanoid_robots) market alongside well-funded competitors pursuing different technical approaches.

| Company | Robot | Approach | Key Differentiator |
|---|---|---|---|
| Clone Robotics | [Clone Alpha](/wiki/clone_robotics_alpha) | Biomimetic, water-powered muscles | Anatomical accuracy, soft body, low material cost |
| [Tesla](/wiki/tesla_optimus) | [Optimus Gen 3](/wiki/tesla_optimus_gen_3) | Electric motors, tendon-driven hands | Manufacturing scale, $20,000 price target, 25 actuators per hand |
| [Figure AI](/wiki/figure_02) | [Figure 02](/wiki/figure_02) | Electric actuators, [OpenAI](/wiki/openai) integration | Real-world factory deployment at BMW |
| [1X Technologies](/wiki/1x_technologies) | [NEO](/wiki/1x_neo) | Electric motors, soft body design | [OpenAI](/wiki/openai)-backed, safety-focused |
| [Boston Dynamics](/wiki/boston_dynamics) | Atlas (electric) | Electric hydraulic hybrid | Advanced locomotion, decades of research |
| [Unitree](/wiki/unitree_h1) | [H1](/wiki/unitree_h1) / [G1](/wiki/unitree_g1) | Electric motors | Low cost, rapid iteration |
| [Agility Robotics](/wiki/agility_robotics_digit) | [Digit](/wiki/agility_robotics_digit) | Electric actuators | Warehouse logistics focus |

Radhakrishnan has argued that competitors relying on gears and electric motors face "entirely different technical roadmaps" from Clone, and that Clone's hydraulic-muscle approach provides distinct advantages in softness, speed, and dexterity. However, critics note that Clone has not yet publicly demonstrated a fully integrated, autonomously walking robot, while competitors like Tesla and Figure AI have already deployed prototypes in real-world work environments [14].

## What are the main criticisms of Clone Robotics?

Despite the attention generated by its viral videos and ambitious vision, Clone Robotics faces several notable challenges:

- **No full-body demonstration:** As of early 2026, Clone has not publicly shown a fully integrated Clone Alpha walking independently or performing household tasks without being suspended from a frame. Protoclone V1 demonstrations have been limited to suspended-frame movements [11][14].
- **Energy consumption:** Early prototypes have reportedly consumed significant amounts of energy. One review described the Protoclone V1's energy consumption as "rivalling a small data centre," though this likely reflects prototype-stage inefficiency rather than production targets.
- **Balance and locomotion:** The company has acknowledged that achieving stable bipedal walking is its most critical engineering challenge, requiring the integration of valves, batteries, the hydraulic system, accumulators, and trained locomotion policies within anatomical constraints.
- **Battery life:** Radhakrishnan has stated that the first prototype offers approximately 1 hour of full-speed running, with several hours expected for normal home use [10]. This remains unverified in public demonstrations.
- **Skepticism about timeline:** Some industry observers question whether Clone can deliver a functional consumer product within its stated timeline, given the gap between suspended-frame demonstrations and autonomous household operation [14].

## See also

- [Clone Alpha](/wiki/clone_robotics_alpha)
- [Humanoid robots](/wiki/humanoid_robots)
- [Artificial muscles](/wiki/artificial_muscles)
- [Tesla Optimus](/wiki/tesla_optimus)
- [Figure 02](/wiki/figure_02)
- [Boston Dynamics](/wiki/boston_dynamics)
- [McKibben artificial muscle](/wiki/mckibben_artificial_muscle)

## References

1. "Poland Clone Robotics Make Liquid Muscled Synthetic Copy of the Human Body." *NextBigFuture*, February 2025. https://www.nextbigfuture.com/2025/02/poland-clone-robotics-make-liquid-muscled-synthetic-copy-of-the-human-body.html
2. "Clone Robotics releases eerie video of twitching, kicking humanoid robot." *New Atlas*, February 2025. https://newatlas.com/robotics/clone-robotics-video-humanoid-robot
3. "Water-powered humanoid robot with synthetic organs, muscles unveiled." *Interesting Engineering*, December 2024. https://interestingengineering.com/innovation/clone-alpha-humanoid-robot-unveiled-poland
4. "Clone Robotics Is Building 279 Muscular Androids for Your Home." *RoboHorizon*, January 2026. https://robohorizon.com/en-us/news/2026/01/clone-robotics-is-building-279-muscular-androids-for-your-home/
5. "The Synthetic Human Roadmap: Clone Robotics Eyes Silicon Valley and $20,000 Price Points." *Humanoids Daily*, 2025. https://www.humanoidsdaily.com/news/the-synthetic-human-roadmap-clone-robotics-eyes-silicon-valley-and-20-000-price-points
6. "Clone, Incorporated: The Terminator, Made in Poland." *3 Seas Europe*, October 2022. https://3seaseurope.com/clone-incorporated-startup-poland/
7. "This incredibly life-like robot hand can be made for just $2,800." *Freethink*, 2023. https://www.freethink.com/robots-ai/humanoid-robots-clone-hand
8. "Towards the future: engineers from Wroclaw have designed a robot based on human anatomy." *Research in Poland*, 2022. https://researchinpoland.org/news/towards-the-future-engineers-from-wroclaw-have-designed-a-robot-based-on-human-anatomy/
9. "Interview with Dhanush Radhakrishnan, CEO of Clone Robotics." *CEO Insider*, 2025. https://ceoinsider.io/interview/dhanush-radhakrishnan
10. "Technology behind ghostly water-powered humanoid robot revealed." *Interesting Engineering*, 2025. https://interestingengineering.com/innovation/clone-robotics-technology-revealed
11. "Protoclone V1 is a sweating robot with 1000 artificial muscles." *R&D World Online*, 2025. https://www.rdworldonline.com/protoclone-v1-1000-artificial-muscles-power-this-sweating-robots-human-like-moves/
12. "Meet Clone Alpha: A Humanoid Robot Built with Synthetic Organs and Artificial Muscles." *Maginative*, December 2024. https://www.maginative.com/article/meet-clone-alpha-a-humanoid-robot-built-with-synthetic-organs-and-artificial-muscles/
13. "Humanoid Protoclone robot twitches into action while hanging from ceiling in viral video." *Live Science*, February 2025. https://www.livescience.com/technology/robotics/humanoid-protoclone-robot-twitches-into-action-while-hanging-from-ceiling-in-viral-video
14. "Clone Robotics Announces Limited Edition Clone Alpha Humanoid Robot for Pre-Order in 2025." *Humanoids Daily*, 2025. https://www.humanoidsdaily.com/news/clone-robotics-announces-limited-edition-clone-alpha-humanoid-robot-for-pre-order-in-2025
15. "Sci-fi Becoming Reality? Clone Robotics: A Company Crafting Westworld-esque Android Robots." *AIBase*, 2024. https://www.aibase.com/news/10047
16. "An Interview with Dhanush Radhakrishnan." *Robotics Reports* (Mary Ann Liebert, Inc.), 2023. https://www.liebertpub.com/doi/10.1089/rorep.2023.29000.int
17. "Clone demos creepy humanoid robot hand with human-like grip strength." *Interesting Engineering*, November 24, 2025. https://interestingengineering.com/ai-robotics/clone-demos-creepy-humanoid-hand
18. "Clone's $20K synthetic human." *The Rundown AI*, April 9, 2026. https://www.rundown.ai/articles/clone-20k-synthetic-human
19. "Watch this terrifying robotic torso spring into life." *Live Science*, November 2024. https://www.livescience.com/technology/robotics/watch-this-terrifying-robotic-torso-spring-into-life
20. "Clone Robotics' Torso Draws Comparisons to Westworld Host Drones." *MikeKalil.com*, October 2024 (updated May 2026). https://mikekalil.com/blog/clone-robotics-westworld/
21. "Pre-order." *Clone Robotics official website*, accessed June 2026. https://clonerobotics.com/pre-order/
22. Reiman, A. H. and Radhakrishnan, D. "Near-singular equilibrium currents near magnetic islands with broken symmetry." *Nuclear Fusion*, 2019. https://iopscience.iop.org/article/10.1088/1741-4326/ab0968
23. "Jetson Thor." *NVIDIA official product page*, accessed June 2026. https://www.nvidia.com/en-us/autonomous-machines/embedded-systems/jetson-thor/
24. "Clone Robotics 2026 Company Profile: Valuation, Funding and Investors." *PitchBook*, 2026. https://pitchbook.com/profiles/company/517715-56
25. "Invest in Clone." *Republic*. https://republic.com/clone
26. "Clone." *Clone Robotics official website*, accessed June 2026. https://clonerobotics.com/
27. "Meet Clone Robotics' Protoclone V1: The World's First Bipedal Musculoskeletal Android Sparks Debate." *Gizbot*, February 2025. https://www.gizbot.com/internet/news/meet-clone-robotics-protoclone-v1-world-first-bipedal-musculoskeletal-android-sparks-debate-110135.html
28. "Clone Robotics Protoclone V1 Synthetic Human." *MikeKalil.com*, February 2025. https://mikekalil.com/blog/clone-robototics-protoclone/

