Kosmos ReBotz – Duke der Skating-Bot

So einfach kann es sein, einen eigenen Roboter zu konstruieren! Die kleinen Roboter aus
der neuen Reihe ReBotz sind mit wenigen Handgriffen zusammengebaut. Mit Batterien
versorgt, bringen sie Kinder ab acht Jahren mit Ihren kuriosen Fortbewegungsarten zum
Staunen und mit ihren besonderen Charakteren zum Schmunzeln. Besonders Spaß macht
es, die Körperteile der verschiedenen ReBotz durcheinander zu mischen und so ganz neue
Fortbewegungsmethoden zu erfinden. Auf diese Weise wird die Sammelleidenschaft und
die Lust der jungen Forscherinnen und Forscher am Experimentieren geweckt.

Kosmos ReBotz – Pitti der Walking-Bot

Kosmos ReBotz – Pitti der Walking-Bot.

So einfach kann es sein, einen eigenen Roboter zu konstruieren! Die kleinen Roboter aus
der neuen Reihe ReBotz sind mit wenigen Handgriffen zusammengebaut. Mit Batterien
versorgt, bringen sie Kinder ab acht Jahren mit Ihren kuriosen Fortbewegungsarten zum
Staunen und mit ihren besonderen Charakteren zum Schmunzeln. Besonders Spaß macht
es, die Körperteile der verschiedenen ReBotz durcheinander zu mischen und so ganz neue
Fortbewegungsmethoden zu erfinden. Auf diese Weise wird die Sammelleidenschaft und
die Lust der jungen Forscherinnen und Forscher am Experimentieren geweckt.


Find the latest News on robots drones AI robotic toys and gadgets at robots-blog.com. Follow us on our Blog Instagram Facebook Twitter or our other sites. Share your robotics ideas and products with us. #robots #robot #omgrobots #roboter #robotic #mycollection #collector #robotsblog #collection #botsofinstagram #bot #robotics #robotik #gadget #gadgets #toy #toys #drone #robotsofinstagram #instabots #photooftheday #picoftheday #followforfollow #instadaily #kosmos #rebotz #buxy #pitti #rusty #duke

Kosmos ReBotz – Buxy der Jumping-Bot

Kosmos ReBotz – Buxy der Jumping-Bot.

So einfach kann es sein, einen eigenen Roboter zu konstruieren! Die kleinen Roboter aus
der neuen Reihe ReBotz sind mit wenigen Handgriffen zusammengebaut. Mit Batterien
versorgt, bringen sie Kinder ab acht Jahren mit Ihren kuriosen Fortbewegungsarten zum
Staunen und mit ihren besonderen Charakteren zum Schmunzeln. Besonders Spaß macht
es, die Körperteile der verschiedenen ReBotz durcheinander zu mischen und so ganz neue
Fortbewegungsmethoden zu erfinden. Auf diese Weise wird die Sammelleidenschaft und
die Lust der jungen Forscherinnen und Forscher am Experimentieren geweckt.


Find the latest News on robots drones AI robotic toys and gadgets at robots-blog.com. Follow us on our Blog Instagram Facebook Twitter or our other sites. Share your robotics ideas and products with us. #robots #robot #omgrobots #roboter #robotic #mycollection #collector #robotsblog #collection #botsofinstagram #bot #robotics #robotik #gadget #gadgets #toy #toys #drone #robotsofinstagram #instabots #photooftheday #picoftheday #followforfollow #instadaily #kosmos #rebotz #buxy #pitti #rusty #duke

Maker Faires 2022: Termine, Teilnahme und Tickets
Die Maker-Szene trifft sich wieder

Hannover, 3. Februar 2022 – In diesem Jahr gibt es frischen Input aus der Maker-Community wieder live und in Farbe: Vier Maker Faires sind für 2022 geplant. Deutschlands größte Maker Faire findet am 10. und 11. September in Hannover statt. Erstmals gibt es das Format für Innovation und Macherkultur auch im Süden Deutschlands. Maker, Enthusiasten, Kreative und Erfinder treffen sich im Sommer zur Maker Faire Baden-Württemberg. Auch in Dortmund und Chemnitz stellen Maker ihre spannenden Ideen vor. Die Ticketshops sind eröffnet und die Calls for Makers laufen.

Los geht’s im Westen: Auf der 5. Maker Faire Ruhr in Dortmund werden am 26. und 27. März in der DASA, Deutschlands größter Arbeitsweltausstellung, wieder ungewöhnliche Experimente und ziemlich schräge Projekte von IT bis Design präsentiert.

Danach folgt die Premiere im Süden Deutschlands: Die erste Maker Faire Baden-Württemberg startet am 25. und 26. Juni, auf dem Gelände des RTunlimited in Reutlingen. In Kooperation mit dem Innoport in der Metropolregion Stuttgart stellen Maker gemeinsam mit Technologiepartnern ihre zukunftsweisenden Ideen und MINT-Projekte vor. „Wir verlassen den Standort Berlin und wollen zusätzlich zur Maker Faire Hannover im Norden die Maker Faire Baden-Württemberg als zweite große Leitveranstaltung in Deutschland für die Maker-Community aufbauen“, erklärt Anna Ludwig, Besuchermanagerin Maker Faire.

Für den 9. und 10. Juli sollten sich alle Wissbegierigen die Maker Faire Sachsen vormerken: Chemnitz ist nicht nur Kulturhauptstadt 2025, hier präsentieren inspirierende Maker jedes Jahr aufs Neue, wie kreativ man mit Wissenschaft und Technik umgehen kann.

Höhepunkt ist dann die Maker Faire Hannover: Am 10. und 11. September wandelt sich das Hannover Congress Centrum mit seinem idyllischen Außengelände bereits zum achten Mal in einen Schauplatz kreativer Ideen. „Dieses Jahr wird es internationaler und zweisprachig!“, sagt Daniel Rohlfing, Leiter Events und Produktmanagement. „Wir laden Maker aus der ganzen Welt zu uns ein, ihre Genialität bei uns unter Beweis zu stellen.“ Die Maker Faire Hannover hat sich in der niedersächsischen Landeshauptstadt als „Must-see-Event“ etabliert und zog in der Vergangenheit rund 20.000 Besucherinnen und Besucher an.

Ab sofort können für die beiden Leitveranstaltungen, die Maker Faire Baden-Württemberg und die Maker Faire Hannover, Tickets gebucht werden. Auch die Calls for Makers laufen auf Hochtouren. Interessierte Maker können sich für einen Stand, einen Workshop oder Vortrag anmelden. Auch Unternehmen haben noch Zeit, sich für eine Ausstellungsteilnahme zu entscheiden.

The Evolution of Robo-Dogs

Sophie writes on behalf of Panda Security covering cybersecurity and online safety best practices for consumers and families. Specifically, she is interested in removing the barriers of complicated cybersecurity topics and teaching data security in a way that is accessible to all. Her most recent piece is on the evolution of robotic dogs and where they're headed next.

Robots have been a point of fascination and study for centuries as researchers and inventors have sought to explore the potential for automated technology. While there’s a long history of the development and creation of autonomous machines, mobile, quadrupedal robots — or four-legged robotic dogs — have seen a significant boom in the last few decades. 

The development of quadrupedal robots stems from the necessity of mobile robots in exploring dangerous or unstructured terrains. Compared to other mobile robots (like wheeled or bipedal/two-legged robots), quadrupedal robots are a superior locomotion system in terms of stability, control and speed.

The capabilities of quadrupedal robots are being explored in a variety of fields, from construction and entertainment to space exploration and military operations. Today, modern robotic dogs can be purchased by businesses and developers to complete tasks and explore environments deemed too dangerous for humans. Read on for the evolution of robotic dogs and where they might be headed in the future. 

1966: Phony Pony

Although it technically mirrored the form of a horse, the Phony Pony was the first autonomous quadrupedal robot to emerge in the U.S. that set the precedent for robotic dogs of the future. Equipped with electrical motors, the Pony Pony had two degrees of freedom, or joints, in each leg (the hip and the knee) and one adaptive joint in the frontal plane. The hip and knee joints were identical, allowing for both forward and backward walking movements. 

The Phony Pony was capable of crawling, walking and trotting, albeit at a very slow speed. Thanks to its spring-restrained “pelvic” structure, it was able to maintain static vertical stability during movement. Since the Phony Pony was developed before the advent of microprocessors, it could only be controlled through cables connected to a remote computer in an adjacent building.  

Developer: Frank and McGhee

Use: Initial research and development of autonomous quadrupeds 

1999: AIBO

In the late 1990s, Sony’s AIBO  — one of the most iconic and advanced entertainment robotic dogs — hit the market. While the AIBO (Artificial Intelligence RoBOt) was constructed for entertainment purposes, its machinery is still highly complex. 

Developed with touch, hearing, sight and balancing capabilities, it can respond to voice commands, shake hands, walk and chase a ball. It can also express six “emotions”: happiness, sadness, fear, anger, dislike and surprise. Its emotional state is expressed through tail wagging, eye color changes and body movements, as well as through a series of sounds including barks, whines and growls. Today, the AIBO has been used across many research groups for the purpose of testing artificial intelligence and sensory integration techniques.

Developer: Sony

Use: Toys and entertainment

2005: BigDog

Boston Dynamics has become a leader in the world of robotics, specifically in their development of canine-inspired quadrupeds. Their first robotic dog, coined BigDog, arrived in 2005. Measuring three by two feet and weighing in at 240 pounds, BigDog was designed to support soldiers in the military. It can carry 340 pounds, climb up and down 35-degree inclines and successfully hike over rough terrains. 

Each of BigDog’s legs has a passive linear pneumatic compliance — a system that controls contact forces between a robot and a rigid environment — and three active joints in the knees and hips. The robot is powered by a one-cylinder go-kart engine, and its dynamic regulating system allows it to maintain balance. Its movement sensors embrace joint position, joint force, ground contact, ground load and a stereo vision system. 

In 2012, developers were still working to refine BigDog’s capabilities before plans to officially deploy it to military squads. However, the project was discontinued in 2015 after concluding its gas-powered engine was too noisy to be used in combat. 

Developer: Boston Dynamics

Use: Assist soldiers in unsafe terrains 

2009: LittleDog 

Four years after BigDog came LittleDog, Boston Dynamics’ smallest quadrupedal robot to date. LittleDog was developed specifically for research purposes to be used by third parties investigating quadrupedal locomotion. 

Each of LittleDog’s legs are powered by three electric motors fueled by lithium polymer batteries and have a maximum operation time of thirty minutes. LittleDog maintains a large range of motion and is capable of climbing, crawling and walking across rocky terrains. A PC-level computer placed on top of LittleDog is responsible for its movement sensors, controls and communications. It can be controlled remotely and includes data-logging support for data analysis purposes. 

Developer: Boston Dynamics

Use: Research on locomotion in quadrupeds 

2011: AlphaDog Proto

Continuing their efforts to develop military-grade robots, Boston Dynamics released AlphaDog Proto in 2011. Powered by a hydraulic actuation system, AlphaDog Proto is designed to support soldiers in carrying heavy gear across rocky terrains. It’s capable of carrying up to 400 pounds for as far as 20 miles, all within the span of 24 hours, without needing to refuel. 

AlphaDog Proto is equipped with a GPS navigation and computer vision system that allows it to follow soldiers while carrying their gear. Thanks to an internal combustion engine, AlphaDog Proto proved to be quieter than its predecessor BigDog, making it more suitable for field missions. 

Developer: Boston Dynamics

Use: Assist soldiers in carrying heavy gear over unsafe terrains

2012: Legged Squad Support System (LS3)

Boston Dynamics’ development of the Legged Squad Support System (LS3) came soon after the creation of BigDog in their efforts to continue refining their quadrupedal robots for soldiers and Marines. LS3 was capable of operating in hot, cold, wet and otherwise unfavorable conditions. It contained a stereo vision system with a pair of stereo cameras, which were mounted inside the robot’s head. This operated in conjunction with a light-detecting and ranging unit that allowed it to follow a soldier’s lead and record feedback obtained from the camera. 

Compared to BigDog, LS3 was around 10 times quieter at certain times and had an increased walking speed of one to three miles per hour, increased jogging speed of five miles per hour and the ability to run across flat surfaces at seven miles per hour. It was also capable of responding to ten voice commands, which was a more efficient function for soldiers who would be too preoccupied with a mission to use manual controls. 

Five years into development, LS3 had successfully been refined enough to be able to operate with Marines in a realistic combat exercise and was used to resupply combat squads in locations that were difficult for squad vehicles to reach. By 2015, however, the LS3 was shelved due to noise and repair limitations. While the Marines were ultimately unable to use the LS3 in service, it provided valuable research insights in the field of autonomous technology. 

Developer: Boston Dynamics

Use: Assist soldiers in carrying heavy gear over unsafe terrains

2016: Spot 

Spot is Boston Dynamics’ next creation in their line of quadrupedal robots, designed in an effort to move away from developing quadrupeds strictly for military use and instead move into more commercial use. Spot is significantly smaller than their previous models, weighing just 160 pounds. Spot is capable of exploring rocky terrains, avoiding objects in its path during travel and climbing stairs and hills. 

Spot’s hardware is equipped with powerful control boards and five sensor units on all sides of its body that allow it to navigate an area autonomously from any angle. Twelve custom motors power Spot’s legs, gaining speed of up to five feet per second and operating for up to 90 minutes. Its sensors are able to capture spherical images and also allow for mobile manipulation for tasks such as opening doors and grasping objects. Spot’s control methods are far more advanced than Boston Dynamics’ earlier robots, allowing for autonomous control in a wider variety of situations. 

Developer: Boston Dynamics

Use: Documenting construction process and monitoring remote high-risk environments 

2016: ANYmal

While Boston Dynamics had been the main leader in quadrupedal robots since the early 2000s, Swiss robotics company ANYbotics came out with its own iteration of the robotic dog in 2016. Positioned as an end-to-end robotic inspection solution, ANYmal was developed for industrial use, specifically the inspection of unsafe environments like energy and industrial plants. 

ANYmal is mounted with a variety of laser inspection sensors to provide visual, thermal and acoustic readings. Equipped with an on-board camera, it’s capable of remote panning and tilting settings to adjust views of the inspection site. ANYmal is capable of autonomously perceiving its environment, planning its navigation path and selecting proper footholds during travel. It can even walk up stairs and fit into difficult-to-reach areas that traditional wheeled robots can’t.

ANYmal has undergone a handful of development iterations since 2016 and is available for purchase as of 2021. ANYbotics is currently working on an upgraded version of the robot suitable for potentially explosive environments. 

Developer: ETH Zurich and ANYbotics

Use: Remote inspection of unsafe environments

2021: Vision 60 

One of the latest developments in quadrupedal robots is Ghost Robotics’ Vision 60 robotic dog, which has recently been tested at the U.S. Air Force’s Scott Air Force Base in Illinois as part of its one-year pilot testing program. Built to mitigate risks faced by Air Force pilots, Vision 60 features a rifle mounted on its back contained in a gun pod and is equipped with sensors that allow it to operate in a wide variety of unstable terrains. It’s also capable of thermal imaging, infrared configuration and high-definition video streaming. 

Vision 60 can carry a maximum of 31 pounds and can travel at up to 5.24 feet per second. It’s considered a semi-autonomous robot due to its accompanying rifle; while it can accurately line up with a target on its own, it can’t open fire without a human operator (in accordance with the U.S. military’s autonomous systems policy prohibiting automatic target engagement).

Developer: Ghost Robotics

Use: Military and Homeland Security operations

2021: CyberDog

With more companies embracing the development of quadrupeds, Xiaomi Global followed suit and released their version named CyberDog. CyberDog is an experimental, open-source robot promoted as both a human-friendly companion and an asset by law enforcement and military. CyberDog is sleeker and smaller than its other robotic dog predecessors, carrying a payload of just 6.6 pounds and running over 10 feet per second. 

CyberDog is equipped with multiple cameras and image sensors located across its body, including touch sensors and an ultra-wide fisheye lens. CyberDog can hold 128 gigabytes of storage and is powered by Nvidia’s Jetson Xavier AI platform to perform real-time analyses of its surroundings, create navigation paths, plot its destination and avoid obstacles. CyberDog can also perform backflips and respond to voice commands thanks to its six microphones. 

By making CyberDog an open-source project, Xiaomi hopes to expand its reach into the future of robot development and innovation. Its open-source nature is meant to encourage robotics enthusiasts to try their hand at writing code for CyberDog, giving the project more exposure and bolstering Xiaomi’s reputation in the robotics community. 

Developer: Xiaomi Global

Use: An open-source platform for developers to build upon 

While the market for quadrupedal robots is still in its early stages, interest is steadily growing in a wide range of industries. As for fears of robots pushing out the need for traditionally human-led jobs, these machines are more intended to support humans alongside their jobs rather than replace them outright. 

On the other hand, privacy concerns associated with robots aren’t to be ignored. As with any tech-enabled device, hacking is always possible, especially for open-source robotic models that can put users’ personal information at risk. This applies not only to the quadrupeds discussed above, but to more common commercial robotic systems like baby monitors, security systems and other WiFi-connected devices. It’s important to ensure your home network system is as strong and secure as possible with a home antivirus platform