Tag robots

In the rapidly evolving landscape of smart cities, the integration of technology into everyday life is becoming increasingly prevalent. One innovative solution to the challenges of urban waste management is “Qua” – a system of smart baskets designed to change the paradigm of garbage collection through a bio-inspired and playful approach to social robotics.

Designer: Luca Fiorentino

The creators of Qua have recognized the importance of seamlessly integrating robots into daily life. Unlike traditional robotic designs that may feel intimidating or too ‘robotic,’ Qua takes a different approach by drawing inspiration from nature, particularly the graceful and iconic single-file line movement of ducks. This design philosophy aims to make these robots a familiar and affable presence in urban environments, fostering acceptance and reducing the perceived intrusion of technology.

At its core, Qua is a system of autonomous waste collection baskets designed to move independently throughout the city. The baskets are equipped with sensors and artificial intelligence that allow them to recognize when a user needs to dispose of waste. Instead of requiring users to seek out a designated waste bin, it takes a proactive approach by approaching users when it detects the need for disposal.

The functionality of the robot extends beyond its bio-inspired design. Once it identifies a user ready to dispose of waste, it autonomously navigates towards them, streamlining the waste disposal process. After facilitating the user in discarding their waste, Qua then autonomously returns to a designated charging hub responsible for waste disposal.

One of the key advantages of these robots is their potential to address the issue of littering, particularly among individuals who may be less inclined to walk the extra mile to find a waste bin. By bringing waste collection directly to the user, it offers a convenient and accessible solution to urban waste management. This is particularly beneficial in encouraging responsible waste disposal practices and minimizing littering in public spaces.

However, it’s essential to consider the potential downside of such technology. As noted, Qua could inadvertently cater to the convenience of those who are lazy or unwilling to make the effort to dispose of waste properly. It is definitely serving the larger purpose for society but it raises important questions about the role of technology in shaping behaviors and the need for a balance between convenience and responsibility.

Having said that, Qua represents a groundbreaking approach to waste management in smart cities. By combining bio-inspired design with advanced robotics, Qua aims to redefine the relationship between technology and urban living. As with any technological advancement, it’s crucial to consider the societal implications and strive for a balance that promotes convenience without compromising responsible behavior. The future of waste management may indeed be shaped by innovations like these robots, where technology not only serves a functional purpose but also harmoniously integrates with the natural flow of city life.

3D printing has come a long way, but unless you’re using industrial printers in large factories, you’re probably limited to creating small designs or just parts of a whole. That, unfortunately, means that creators and makers aren’t able to fully express their ideas and designs, at least not those that involve pieces that can’t fit inside a commercial 3D printer. That said, you don’t have to give up your creative freedom to use an expensive production line if you can put 3D printing robots to smart use, like this sustainable plastic coffee table that is able to form organic geometric forms just by making the robot arm loop round and round.

Designer: Martin Zampach

When people think of 3D printers, they most likely think of those boxy contraptions sitting on tables, with nozzles that quickly run back and forth while oozing out hot plastic material in order to build up a three-dimensional object almost like from thin air. While this is the most common and most convenient kind of 3D printing, it has severe limitations in the size or shape of the object being made, basically anything that can fit the area and height of the printer.

LOOPS is a collection of coffee tables conceived to push the envelope of 3D printing and create objects that are larger than normal without requiring additional hardware. An industrial 3D printing robot pretty much goes round and round to create the base shape, building layer after layer of composite material until the desired form is achieved. This is the process used for creating the base of these tables, allowing the designer to apply different geometric shapes with organic forms that look like they’re literally growing before your very eyes.

The coffee tables are more than just experiments in 3D printing, they are also testaments to beautiful sustainable design. Tabletops are made from 100% recycled plastic that is crushed, melted, and then moulded from used plastic. The 3D printed bases, on the other hand, are made from composite material containing cellulose from responsible forestry. When the tables reach the end of their use, both the base and the top can be recycled or reused to extend their life in a different way.

The LOOPS coffee table collection offers a unique and novel design that pushes the boundaries of 3D printing to produce beautiful shapes and textures that almost resemble traditional ceramic creations. The variety of recycled plastics used gives each tabletop a unique appearance, both in color as well as in texture. The minimalist yet elegant designs make the coffee tables the perfect artistic centerpieces for any space, offering a thought-provoking design that opens your mind to the possibilities of sustainable 3D printing.

Robots have long captured our imaginations, from the helpful household robots of science fiction to the industrial machines that streamline manufacturing processes. However, the integration of robots into our daily lives has often been hampered by the challenges they face when navigating complex human environments. These limitations have confined their utility to controlled spaces in industries such as logistics and manufacturing. But now, a groundbreaking design concept known as “Turing” is poised to change the game, bringing a fresh perspective on robotic technology.

Designer: Cambridge Consultants (Tom Shirley, Anya Pivčuka)

Turing is not just another robot; it’s a robotic platform with an emotional design at its core. It was developed by a team of multi-disciplinary experts, including designers, engineers, and researchers, to address a significant challenge in robotics: enabling robots to work in complex human environments while fostering collaboration between humans and machines. Turing’s approach seeks to unlock the untapped potential of human-robot interaction, one of the last remaining barriers to a future where robots become our everyday companions.

In the early stages of UX testing, the team behind Turing discovered that mimicking human emotion was a highly effective means of communicating the robot’s movements and intentions. They employed journey mapping to craft a coherent set of thoughts and emotions for the robot, resulting in a personality and behavior that users could relate to and engage with. By drawing inspiration from well-known characters in animation and film, they could identify the most appropriate personality for a given environment. This adaptability allows Turing to modify its behavior based on the specific context, ensuring it doesn’t seem out of place in various settings.

Turing is designed to work in collaboration with people, capable of navigating through crowded environments using body language, gestures, and emotional cues to communicate with our subconscious. This non-verbal, intuitive communication is significantly faster than traditional speech, enabling the sub-second reaction times necessary to avoid collisions in crowded areas. Moreover, Turing’s modular nature allows it to be adapted to a wide range of industries and customized to address diverse business needs.

The versatility of Turing makes it a game-changer in various industries:

1. Retail: In retail, Turing can assist shoppers with tasks ranging from providing general information to guiding them through the store and even carrying their shopping bags. The emotional and charming personality it displays creates a memorable shopping experience that can be tailored to each venue’s ambiance.

2. Service Industry: Turing comes to the rescue of businesses in the service industry, such as bars and restaurants, which often struggle to recruit enough staff. It can efficiently take orders and deliver food and drinks to customers, enhancing their overall experience. Its adaptability ensures it can seamlessly blend into different restaurant environments, from casual to fine dining.

3. Medical Environments: Turing plays a crucial role in medical settings by reducing the burden on healthcare professionals. It can perform repetitive, time-consuming tasks, such as dispensing medication in low-risk hospital wards. This not only frees up staff to focus on patient care but also helps maintain consistent medication schedules. However, the acceptance of robots like Turing in healthcare settings may take time, as people need to build trust in the accuracy of the tasks performed.

Turing is a groundbreaking development in the world of robotics. By embracing emotional design and a highly adaptable, modular nature, it is pushing the boundaries of human-robot interaction and addressing the limitations that have confined robots to specific industries. With Turing, the future of robotics looks promising, as it promises to bring robots out of controlled environments and into our everyday lives, as social, collaborative, and empathetic companions.

Robots have long captured our imaginations, from the helpful household robots of science fiction to the industrial machines that streamline manufacturing processes. However, the integration of robots into our daily lives has often been hampered by the challenges they face when navigating complex human environments. These limitations have confined their utility to controlled spaces in industries such as logistics and manufacturing. But now, a groundbreaking design concept known as “Turing” is poised to change the game, bringing a fresh perspective on robotic technology.

Designer: Cambridge Consultants (Tom Shirley, Anya Pivčuka)

Turing is not just another robot; it’s a robotic platform with an emotional design at its core. It was developed by a team of multi-disciplinary experts, including designers, engineers, and researchers, to address a significant challenge in robotics: enabling robots to work in complex human environments while fostering collaboration between humans and machines. Turing’s approach seeks to unlock the untapped potential of human-robot interaction, one of the last remaining barriers to a future where robots become our everyday companions.

In the early stages of UX testing, the team behind Turing discovered that mimicking human emotion was a highly effective means of communicating the robot’s movements and intentions. They employed journey mapping to craft a coherent set of thoughts and emotions for the robot, resulting in a personality and behavior that users could relate to and engage with. By drawing inspiration from well-known characters in animation and film, they could identify the most appropriate personality for a given environment. This adaptability allows Turing to modify its behavior based on the specific context, ensuring it doesn’t seem out of place in various settings.

Turing is designed to work in collaboration with people, capable of navigating through crowded environments using body language, gestures, and emotional cues to communicate with our subconscious. This non-verbal, intuitive communication is significantly faster than traditional speech, enabling the sub-second reaction times necessary to avoid collisions in crowded areas. Moreover, Turing’s modular nature allows it to be adapted to a wide range of industries and customized to address diverse business needs.

The versatility of Turing makes it a game-changer in various industries:

1. Retail: In retail, Turing can assist shoppers with tasks ranging from providing general information to guiding them through the store and even carrying their shopping bags. The emotional and charming personality it displays creates a memorable shopping experience that can be tailored to each venue’s ambiance.

2. Service Industry: Turing comes to the rescue of businesses in the service industry, such as bars and restaurants, which often struggle to recruit enough staff. It can efficiently take orders and deliver food and drinks to customers, enhancing their overall experience. Its adaptability ensures it can seamlessly blend into different restaurant environments, from casual to fine dining.

3. Medical Environments: Turing plays a crucial role in medical settings by reducing the burden on healthcare professionals. It can perform repetitive, time-consuming tasks, such as dispensing medication in low-risk hospital wards. This not only frees up staff to focus on patient care but also helps maintain consistent medication schedules. However, the acceptance of robots like Turing in healthcare settings may take time, as people need to build trust in the accuracy of the tasks performed.

Turing is a groundbreaking development in the world of robotics. By embracing emotional design and a highly adaptable, modular nature, it is pushing the boundaries of human-robot interaction and addressing the limitations that have confined robots to specific industries. With Turing, the future of robotics looks promising, as it promises to bring robots out of controlled environments and into our everyday lives, as social, collaborative, and empathetic companions.

Having a human patrol the premises that you want to protect is probably the most common security protocol. However, it is still not fool proof and is prone to error and may cost you a lot if you pay an agency or the security personnel directly. Installing security cameras is also another option but can also be expensive. So if you’re going to spend a lot, why not spend it on a robot?

Designer: Ascento

A Zurich-based company has come up with the Ascento Guard, a robot that can patrol your premises autonomously but with more features than your surveillance system. It is a two-wheeled guard that is able to spot intruders, check on doors and windows, monitor the premises, and record property lights. Once it detects an unusual incident, it sends an alarm so a human can go to the area and do what needs to be done. So yes, human intervention is still needed.

The robot comes with thermal and infrared cameras to record and detect incidents, speakers, a microphone, and GPS tracking. It can run at speeds of up to 5 km/hour if fully charged. It has two large wheels and a robot-looking body that seems to have eyes that can stare into your soul. It is equipped with a fall recovery feature so that it can easily move around all kinds of areas and terrains. It can also weather any kind of, well, weather as it is water proof.

As mentioned earlier, there is still a human element needed in case of an incident. So don’t worry that robots like these will eventually replace actual guards. But it is an alternative or a supplement to your security system if needed. I’m still scared that things like these will eventually become our overlords but hopefully companies like these have thought of ways to make sure that the robot uprising will not happen anytime soon.

Since the batteries that power our phones and laptops haven’t evolved considerably over the years, engineers and designers are instead pushing the boundaries of charging technologies, promising insane speeds without compromising users’ safety. After all, the less time you need to charge a device, the more you can get up and going again. With so many charges making the same promises these days, it’s easy to get lost in a sea of options. Ugreen, however, has a new duo of chargers that utilize the latest GaNFast advancements to deliver speedy and safe charging, while also wrapping them in a package that looks downright adorable on your desk as well.

Designer: Neo Zhu

Click Here to Buy Now: 65W for $40 $49.99 (20% off with Coupon Code “RG65W”). Hurry, deal ends in 48 hours!

GaN or gallium nitride is the new darling of the consumer electronics industry. It offers greater power efficiency compared to the typical silicon used in charging circuitry. Its application in GaNFast technology, specifically, brings better power conversion, less energy loss, and lower heat generation, resulting in faster charging, regardless of the device that’s connected. Ugreen’s new Nexode RG GaN chargers put this already impressive technology into a form that will delight buyers and even enhance the user experience.

The Ugreen Nexode RG 30W, as the name suggests, offers 30 watts of power that’s enough to revive a dead iPhone 14 Pro Max and bring it up to 51% in just 30 minutes. The Ugreen Nexode RG 65W takes that capability to the next level with a 60-watt output, topping off that same iPhone up to 60% in half an hour. It even has enough power to take a MacBook Pro from zero to 70% in just an hour. The Nexode RG 65W even has 2 USB-C ports and 1 USB-A port to really maximize the power. Both chargers support the most popular charging protocols used today, so you don’t have to worry about compatibility.

What makes the Nexode RG GaN chargers really different is their distinctive designs, taking the form of a small, cute, and playful little robot. It doesn’t take more space than a typical charging brick, because you remove the robot’s feet to reveal the actual plugs inside. The design isn’t just for show either. The Nexode RG GaN features an LED mini-smart screen that shows the charging status at a glance without even having to look at each connected device. The robot’s face tells it all, showing a reassuring smile when your device is full.

The Ugreen Nexode RG GaN chargers aren’t just about speed, though. Their advanced Thermal Guard systems monitor temperatures in real-time to prevent overheating, overcharging, and overcurrent. The use of GaNFast technology also helps build a better and greener tomorrow, thanks to reducing energy waste from power loss as well as reducing overall CO2 production. With the Ugreen Nexode RG 30W and 65W GaN chargers, you are getting the best charging technology the industry has to offer in a cute design that is sure to bring a smile to your face.

Click Here to Buy Now: 65W for $40 $49.99 (20% off with Coupon Code “RG65W”). Hurry, deal ends in 48 hours!