#Japan #Tokyo #AR Glasses #Cellid Inc #King Salmon

Exploring the Future of Remote Work: AR Glasses Tested in Shibuya Ward

In a timely development aimed at transforming workplaces, Cellid Inc., a pioneering company in advanced AR technology, has partnered with Tokyo's Shibuya Ward. Their collaboration is part of the ambitious "King Salmon Project," which seeks to tackle pressing social challenges through innovative technology. The focus of this cooperation is the practical demonstration of remote work solutions utilizing cutting-edge AR glasses at construction sites.

Background on Cellid and the King Salmon Project

Cellid Inc. is renowned for its breakthroughs in optical displays and spatial recognition engines designed for next-generation augmented reality glasses. The company launched the "Reference Design" model last November, featuring ergonomically designed, lightweight AR glasses geared toward enhancing on-site functionality. The King Salmon Project is initiated by the Tokyo Metropolitan Government to merge advanced business solutions with municipal needs, facilitating experimental demonstrations that could later influence broad industry adoption.

As labor shortages and issues of work efficiency grow more critical across various sectors, Cellid's innovative approach aims to showcase how technology can mitigate these challenges, particularly in construction—a field long affected by skilled labor deficits.

Objectives of the Demonstration

The demonstration's primary goal was to evaluate the effectiveness of AR glasses in streamlining construction-related tasks and improving productivity. The project specifically targeted areas such as:

• - Enhancing remote work capabilities.
• - Promoting effective skill transfer and knowledge sharing between site teams and office personnel.
• - Facilitating real-time communication to improve project delivery timelines.

By deploying the "Reference Design" AR glasses on-site across multiple construction facilities in Shibuya, Cellid aimed to address these crucial employment and efficiency hurdles.

Implementation at Construction Sites

During the demonstration, a series of five sessions were conducted at different construction locations managed by Shibuya Ward. The AR glasses were used to support various activities, including:

• - Remote supervision of repair work and real-time condition updates.
• - Checks on interior finishing processes.
• - Direct instruction between on-site workers and remote managers.
• - Material inspections that displayed order details via AR, aiding in the comparison between delivered items and their specifications.

This multi-faceted application showcases the vast potential of AR technology in real-world scenarios. Workers could utilize the AR glasses hands-free, which simplified access to instructions and checks without needing to juggle other devices, such as tablets or smartphones.

Core Findings from the Experiment

The results of the verification experiment were promising. Remote supervisors could oversee activities, provide guidance, and respond instantaneously to emerging challenges—all without the need to be physically present on-site. This real-time capability was made possible through the live display of text-based guidelines and information visible directly within the workers' line of sight. Even with some operational hurdles, the experiment confirmed that AR glasses could facilitate effective communication and workflow alterations without disrupting construction activities.

According to initial analysis, significant time savings were observed, with workers reducing task time by an average of 1.4 hours—accounting for travel and execution of responsibilities. Moreover, estimates indicate an annual reduction of up to 638 hours in work processes, which could yield substantial efficiency gains across the entire workflow.

Prospective Impact and Future Applications

The practical applications of these AR glasses extend beyond construction. Cellid anticipates that this trial serves as a model for future AR solutions across diverse industries that face similar challenges. Satoshi Shiraga, CEO of Cellid, stated, "The demonstration revealed how lightweight and thin AR glasses can advance communication among on-site workers, enriching productivity. This venture positions us to develop enhanced solutions that cater to a range of professional environments."

The King Salmon Project exemplifies how proactive strategies can harness technology to address societal job market trends. By focusing on specific pain points within industry operations, such innovative efforts can transform workplace dynamics globally and significantly enhance productivity.

The collaboration with Shibuya Ward represents just the beginning of Cellid's venture into modernizing work environments through AR technology. Moving forward, the company looks to leverage insights gained from this project to expand AR solutions throughout Japan and beyond, ultimately echoing the need for adaptive strategies in the face of evolving workplace demands.