Interview about G2 Face Recognition Security Device, winner of the A' Security, Safety and Surveillance Products Design Award 2020
high quality of materials and simplicity of design make this security face recognition device fancy, stylish and robust. Advanced technology inside to make it one of the fastest in the world and very precise, no one can cheat its algorithm. Water proof product with an atmosphere led light on the back side to create an ambient mood even in coldest office. The compact size makes it fitting almost everywhere and the shape allow it to be positioned horizontally or vertically.
View detailed images, specifications, and award details on A' Design Award & Competition website.
View Design DetailsThe seamless integration of form and function in the Y1 Younger Series Security Device, particularly the innovative waterproofing without visible external screws, was the result of a deliberate design process focused on both aesthetics and performance.**Design Decisions:**1. **Waterproofing Needs:** We prioritized making the device fully waterproof to ensure reliability in various environments, particularly where exposure to moisture is common. To achieve this, we selected a high-quality, durable sealant that could be applied during the assembly process to create an airtight, watertight barrier around the device’s internal components, without the need for external screws or sealing joints.2. **Aesthetic Considerations:** One of the key design goals was to maintain a sleek, minimalist aesthetic. Visible screws or fasteners would have detracted from the device’s clean, modern look. By eliminating external screws, we created a more polished, seamless exterior, which also enhanced the overall user experience by offering a more elegant and visually appealing product.3. **Engineering Solutions:** Instead of using traditional fasteners, we employed advanced precision molding techniques, such as ultrasonic welding and snap-fit mechanisms, to securely hold the device’s parts together. These methods ensured that the device remained tightly sealed and structurally sound, while also preserving the aesthetic integrity of the design.4. **Material Selection:** The choice of materials played a key role in both the waterproofing and the design. We used robust, high-quality plastics and alloys that are resistant to corrosion and wear, ensuring the device’s durability over time. These materials also contributed to the overall strength and waterproofing without compromising the sleek design.5. **Functional Integration:** The decision to remove visible screws was not just about aesthetics but also about improving the user experience. A screwless design means fewer points of failure, improving the long-term performance of the device. It also simplifies the manufacturing process, reducing the complexity and cost of assembly.In summary, this design achievement was the result of carefully balancing the need for robust functionality with the desire for a clean, seamless form. By integrating cutting-edge waterproofing techniques with innovative engineering and material choices, we were able to create a security device that excels both in performance and in its visual appeal.
The decision to include an ambient LED backlight was driven by our desire to blend functionality with a sense of atmosphere. In office environments, where technology can sometimes feel stark or intrusive, we wanted the device to enhance, rather than disrupt, the mood of the space.The LED light serves as a subtle way to integrate the device into its surroundings, creating a calming effect with a soft glow that can transform the feel of a room. This was important for us because lighting has a significant impact on mood and productivity, and we wanted to offer something more than just a functional security feature. The gentle backlight adds warmth and a more inviting ambiance, helping the device feel less like a piece of hardware and more like a natural part of the environment.At the same time, the backlight also serves as a practical indicator, changing in color or intensity to show the device’s status without being distracting. It’s a quiet, elegant way to provide information to the user while contributing to the overall aesthetics of the space.Ultimately, the LED backlight reflects our belief that technology should enhance its environment, not dominate it. By fusing security with a thoughtful design, we created a device that complements the workspace while still offering the reliability and function people need.
Balancing the "less is more" philosophy was both a challenge and an exciting opportunity to innovate. Our goal was to create a design that felt sleek and minimalistic, but also ensured that the advanced technology behind it was fully integrated and functional.**Simplicity in Form:**The minimalist design was essential to maintaining a modern, unobtrusive look, especially in professional environments where clean lines and simplicity are key. We avoided unnecessary details and focused on creating a streamlined device that blends into its surroundings while still offering a high-tech experience. By limiting visible elements like buttons or external hardware, the device maintains its sleek appearance without compromising on the core technology.**Advanced Technology Integration:**Facial recognition security required a thoughtful approach to integrating the necessary components—such as cameras, sensors, and processors—without disrupting the device’s simplicity. We used compact, high-performance hardware and integrated it within the form, placing emphasis on hidden functionality. The facial recognition system was seamlessly embedded into the device’s front panel, allowing for the sensors to remain discreet yet highly effective.**User Experience Focus:**We also wanted the device to be easy to use. The technical complexity of facial recognition was hidden behind a simple, intuitive interface. The device’s operation is straightforward: users just need to approach, and the system does the rest. The simplicity of the user experience is the result of careful engineering, where we took complex technology and made it feel effortless.In essence, our approach was about harmonizing the complex, cutting-edge features with a design that feels clean and unobtrusive. We focused on embedding the technology deeply within the device so that it wouldn’t disrupt the visual simplicity while still delivering powerful, reliable performance.
Developing the dual-eye identification system for the Y1 Younger Series Security Device, which achieves a rapid 300-millisecond recognition speed and prevents spoofing attempts, was a multi-step process that involved advanced research, collaboration, and rigorous testing.**1. Dual-Eye Identification System:**The decision to use dual-eye recognition was based on the need for more accurate and secure facial identification. By leveraging two separate sensors—each focused on a different area of the face—we increased the system's ability to accurately capture key facial features from different angles, ensuring a higher level of precision. This redundancy also allowed the system to cross-check the information from both sensors in real-time, improving the overall reliability and speed of the recognition process.**2. High-Speed Recognition Algorithm:**To achieve the impressive 300-millisecond recognition speed, we optimized the facial recognition algorithm for efficiency. We used powerful processing units and machine learning models that could quickly analyze facial features, match them to stored profiles, and authenticate users without delay. The system was fine-tuned to prioritize speed without compromising accuracy, employing advanced pattern recognition and feature extraction techniques that enable the device to instantly identify faces.**3. Anti-Spoofing Measures:**Preventing spoofing attempts—such as using photos or videos to trick the system—was a critical part of the development process. We implemented multiple layers of security within the algorithm, including 3D face mapping and infrared sensing. These technologies allow the system to detect subtle depth variations and infrared patterns that are unique to live faces. The dual-eye system further enhances this protection by comparing data from multiple angles, ensuring that the person attempting to gain access is physically present and not using a static image.**4. Machine Learning and Continuous Improvement:**To ensure continuous improvement, we incorporated machine learning techniques that allow the system to evolve and adapt over time. The algorithm was trained using a large dataset of facial images, helping it become more accurate in recognizing diverse facial features across different lighting conditions and environments. As the device learns from more user interactions, it refines its ability to distinguish between legitimate users and potential spoofing attempts.In summary, the development of the dual-eye identification system involved a combination of cutting-edge technologies, from advanced facial recognition algorithms to anti-spoofing security features. By focusing on speed, accuracy, and security, we were able to create a system that delivers quick and reliable performance while keeping user data safe.
It was designed with ergonomic flexibility in mind, ensuring it could accommodate users of varying heights and provide an optimal user experience in different environments. Several key ergonomic considerations guided the camera angle and interface design to ensure accessibility and comfort.**1. Camera Angle Optimization:**To ensure accurate facial recognition regardless of how the device is mounted, we carefully designed the camera system to be adjustable within a certain range. This allowed us to position the cameras at an optimal angle for capturing facial features from both standing and seated positions, accommodating users of different heights. The dual-eye recognition system also helps by providing a broader field of view, making sure the system can effectively scan users’ faces from different angles, whether the device is mounted horizontally or vertically.**2. Adjustable Viewing Height:**Given the varying heights of users, we designed the interface and camera position so that the device would still be effective whether placed at eye level or slightly above or below. In a vertical mount, the user’s face is more likely to be at eye level, but in horizontal mode, we accounted for situations where users might approach the device at different heights. The device’s recognition system was optimized to detect users from a range of angles, ensuring it would still function efficiently regardless of the mounting orientation.**3. Interface Accessibility:**The touch interface was designed to be intuitive and accessible from both orientations. We ensured the interface could be easily interacted with whether the device is placed vertically or horizontally, with the controls and status indicators placed in such a way that they remain easily visible and operable in both positions. The capacitive touch interface is responsive to natural hand movements, meaning users don’t need to stretch or adjust their posture significantly to use the device.**4. User Experience Focus:**Ultimately, the goal was to create a system that could be installed in a variety of spaces, whether on a wall, desk, or doorframe, without compromising the user’s interaction. Whether the device is used in an office, home, or public space, the design is versatile enough to meet different ergonomic needs while maintaining a seamless, comfortable experience for users of all heights.By carefully considering the range of possible user heights and the varying use cases, we were able to create a security device that works well both ergonomically and functionally, regardless of its orientation or mounting position.
It was driven by a desire to achieve both functional durability and a high-end aesthetic. Aluminum’s strength-to-weight ratio made it the ideal choice for housing the device’s internal components, ensuring robust protection while keeping the device light enough for easy installation in various environments. The material's resistance to corrosion and wear also contributes to the device’s longevity, making it a reliable option for long-term use.From a design perspective, CNC machining allowed us to achieve precise engineering, ensuring that every component fit together seamlessly. This precision was essential not only for the device’s structural integrity but also for maintaining the sleek, minimalist look that defines its overall design. The brushed finish, a hallmark of aluminum, adds a premium, modern feel to the device, aligning perfectly with its high-tech functionality and helping it integrate well into both professional and home settings.Aluminum also offers excellent thermal conductivity, which is important for managing heat generated by the device's internal components. This keeps the device running efficiently and ensures it remains reliable during extended use. Beyond these practical benefits, aluminum is also a sustainable material, which aligns with the growing consumer demand for eco-friendly products.Ultimately, CNC-machined aluminum allows the Y1 Younger Series Security Device to combine strength, precision, and aesthetics, creating a product that feels sophisticated, performs reliably, and maintains long-term durability.
We conducted a thorough analysis of competitor products to understand their strengths and limitations. This process was crucial in shaping our approach to combining advanced technology with user-friendly design.By evaluating existing security devices, we identified common issues that users often face, such as overly complex interfaces, slow recognition speeds, and an overemphasis on functionality at the expense of aesthetics. Many products were either too bulky, difficult to integrate into different environments, or failed to prioritize ease of use.Our analysis of these challenges led us to focus on creating a device that would be both high-tech and intuitive. We wanted to offer a seamless user experience without overwhelming the user with complicated settings or interfaces. The dual-eye facial recognition system, for example, was developed to provide fast, secure, and accurate identification while eliminating the need for users to interact with the device unless absolutely necessary. The 300-millisecond recognition time and anti-spoofing measures, inspired by our competitor analysis, were critical in ensuring that the device performed efficiently and securely in real-world scenarios.Additionally, we observed that many competitors neglected the importance of design and aesthetics in a security device. This influenced our decision to integrate a minimalist, premium design using CNC-machined aluminum and subtle LED backlighting. We saw an opportunity to create a device that not only met security needs but also blended seamlessly into home and office environments, offering a sophisticated yet unobtrusive presence.Ultimately, the competitor analysis helped us identify key opportunities to innovate, allowing us to combine cutting-edge technology with a simple, elegant design that delivers both security and a smooth user experience. We focused on making sure that the Y1 Younger Series Security Device could provide advanced features without sacrificing usability or aesthetics, a balance that we felt was often overlooked in other products on the market.
The decision to integrate advertising capabilities with the primary security function was driven by the evolving needs of businesses and the growing demand for multifunctional devices. As businesses seek innovative ways to maximize the value of their technology investments, we recognized the potential to combine security with added functionality, creating a more versatile and cost-effective solution.The idea was inspired by the growing trend of digital signage and interactive technology in public spaces, where devices are expected to do more than just perform their primary function. Security devices, traditionally seen as purely functional, could be reimagined as dynamic tools that offer additional value. By incorporating advertising features, the Y1 Younger Series Security Device transforms from a simple security product into an engaging platform that can display targeted content, promotions, or messages while maintaining its core security function.This multifunctional approach addresses evolving market needs by offering businesses a way to leverage their security infrastructure for dual purposes. In environments like offices, retail spaces, or public venues, the device can seamlessly serve as both a security tool and a marketing asset, reducing the need for separate equipment. It also offers flexibility—businesses can update advertisements remotely, allowing for real-time content management, which is especially valuable in fast-paced environments.In essence, the integration of advertising capabilities makes the Y1 Younger Series Security Device a more versatile and cost-effective solution for modern businesses, meeting the demand for multifunctionality without compromising on the security aspect. This innovation reflects our commitment to responding to the changing landscape of both security technology and digital marketing, providing a device that adapts to both practical and business-driven needs.
The year-long development was an exciting and challenging journey.One of the most crucial moments was when we first reviewed the concept of seamlessly integrating advanced security technology with aesthetic design. Early on, we realized that the trend in the security industry was moving toward more discreet, user-friendly devices that could blend into both professional and residential environments. This insight led us to prioritize a minimalist design without compromising on functionality. We also focused on making the device as unobtrusive as possible while still offering cutting-edge features like the dual-eye facial recognition system. The challenge was finding the balance between security and design, and this realization set the tone for the rest of the project.Another pivotal moment occurred during the prototyping phase, when we received feedback from early users and external partners. Testing in real-world conditions revealed important insights about user interaction and the importance of intuitive design. We realized that many competitors had complicated interfaces that hindered the user experience, so we decided to focus on a simplified, touch-based interface that would be easy to navigate. The feedback also pushed us to make sure the facial recognition technology was fast and reliable, with a recognition speed of 300 milliseconds and anti-spoofing features to ensure the system’s security and efficiency.In parallel, the decision to incorporate advertising capabilities into the device emerged from market research we conducted in Shanghai. The city is known for its bustling retail and business environments, and we saw a growing trend where businesses were looking for ways to integrate digital signage into their security infrastructure. This insight led us to explore how the Y1 device could serve a dual purpose—both as a security tool and a platform for dynamic advertising. This was a game-changing moment that expanded the device’s potential beyond traditional security roles.Finally, the choice of materials and the design of the aluminum body was shaped by both engineering challenges and aesthetic goals. We were particularly focused on achieving the precision and finish that CNC-machined aluminum offers, which led to countless iterations and refinements. We also paid close attention to user accessibility, making sure the device’s camera angle, recognition system, and interface were ergonomically optimized for users of all heights.In summary, the Y1 Younger Series Security Device’s development was shaped by a series of moments where user feedback, market insights, and engineering challenges led us to refine and rethink our approach. These key decisions, made throughout the design process, allowed us to create a security device that was not only functional but also innovative, user-friendly, and adaptable to the evolving needs of modern businesses.
The Y1 Younger Series is poised to influence the future of facial recognition systems by setting new standards for speed, accuracy, and multifunctionality. Its 300-millisecond recognition time and anti-spoofing features demonstrate that facial recognition can be fast and secure, which will likely become a baseline expectation for future systems.The device’s integration of advertising and marketing functionalities alongside security highlights a trend toward multifunctional tech, where facial recognition may expand beyond security to include personalized content and customer engagement. Additionally, its minimalist, user-friendly design proves that high-tech security can be intuitive, pushing future systems toward more accessible interfaces.Finally, the Y1’s focus on privacy and data security sets an example for future systems to prioritize transparency and resistance to spoofing, addressing growing concerns over privacy. Overall, the Y1’s combination of advanced technology and user-centered design will likely inspire the next generation of facial recognition systems to be faster, more versatile, and easier to use.
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