In 2018, the rapid advancement of technology continued to reshape daily life, with Japan showing a strong interest in AI, AR, and VR. These innovations were expected to experience explosive growth, especially smart speakers, which were seen as revolutionary devices that could redefine user interaction with technology. Global tech giants introduced smart speakers like Google Home, Amazon Echo, and LINE’s ClovaWAVE, creating a competitive landscape. As consumers began using voice commands to access information, control smart homes, and perform tasks, the convenience of these devices made them a key trend for the year.
Japan, known for its fashion-conscious culture, often makes bold predictions at the start of each year. In 2018, the media was optimistic about the potential of smart speakers, viewing them as more than just gadgets but as essential tools for everyday life. Companies were eager to capture the “last blank space†in digital marketing, recognizing that smartphones couldn’t always meet users’ needs—especially during activities like cooking, driving, or cleaning. Voice-activated devices offered a seamless way to stay connected.
Smart speakers were also considered the next evolution in digital interfaces, moving from touchscreens to voice commands. This shift promised a more natural and intuitive way of interacting with technology. While the market was still developing, early adopters saw great value in the ability to ask questions, play music, and control home automation through simple voice instructions.
However, challenges remained. Issues like voice recognition accuracy and limited functionality hindered widespread adoption. The year 2018 was expected to bring improvements in natural language processing and more integrated services. Companies also aimed to monetize smart speaker platforms through targeted advertising and partnerships, opening new revenue streams.
Meanwhile, VR and AR technologies were gaining traction, though their popularity had been slower than expected. High costs and technical barriers had limited their appeal. But with new, more affordable models like the HTC Vive Focus and Oculus Go hitting the market, the price threshold was dropping, making these experiences more accessible. Content development also became a priority, with developers working to create engaging and comfortable experiences for a broader audience.
AR and VR found practical applications beyond entertainment. Real estate agents used VR to offer virtual home tours, while retailers leveraged AR for immersive online shopping. In automotive, AR-enhanced head-up displays improved driver safety by projecting critical data directly onto windshields. Magic Leap, after years of anticipation, finally launched its AR glasses in 2018, signaling a major step forward for the industry.
AI was another major focus, with companies exploring its potential across industries—from healthcare to autonomous vehicles. The development of AI-specific hardware, such as Google’s TPU and Intel’s processors, intensified competition. Meanwhile, quantum computing took a step closer to commercialization, with companies like IBM and D-Wave leading the charge. Japan also joined the race, launching the QNN cloud system to give the public a taste of future tech.
In addition, IoT-driven personalization became more common. Zozotown introduced the Zozosuit, a smart garment that measured body dimensions precisely, helping customers shop online without trying on clothes. These innovations reflected a growing trend toward smarter, more personalized consumer experiences.
Overall, 2018 was a pivotal year for emerging technologies, setting the stage for even greater advancements in the years to come.
Embedded computer, as a highly specialized computer system, have been widely and deeply applied in many fields due to their unique performance advantages, and their usage methods vary according to different application scenarios.
In the field of industrial control, embedded industrial lcd computer are the intelligent brain of factory automation production lines. Whether it is the precise operation of CNC machine tools, the flexible control of robots, or the fine management of the entire production process, they play a crucial role. By monitoring the operational status of industrial equipment in real-time, diagnosing faults, and implementing remote intelligent control, embedded computers have effectively promoted industrial production towards efficiency and intelligence, significantly improving production efficiency and product quality.
Intelligent transportation systems also rely on the support of embedded industrial computers. From precise control of traffic signals, efficient operation of highway toll collection, to real-time monitoring and precise navigation of vehicles, embedded computers are like behind the scenes heroes in the transportation field, silently optimizing traffic flow, enhancing traffic safety, and significantly improving the level of traffic management.
In the medical field, embedded touch screen computer play a crucial role in various advanced medical devices. Whether it is complex medical imaging equipment, such as X-ray machines, CT scanners, vital sign monitors, or even highly precise surgical robots, they all rely on embedded computers to precisely control the operation of the equipment, ensuring the accurate collection and fine processing of medical data, and providing solid technical support for medical diagnosis and treatment.
In the field of smart home, embedded industrial display have become the core hub of smart home systems. It can centrally and intelligently manage household appliances, security systems, and lighting systems, creating a convenient, comfortable, and personalized home environment based on user needs and settings.
In the vast aerospace field, embedded computer are deeply involved in key aspects of aircraft flight control systems, navigation systems, and communication systems. Faced with extreme environmental conditions, embedded computers provide strong support for flight safety and communication security with their excellent performance and high reliability.
In the field of communication, embedded computers play a crucial role in communication infrastructure such as base station equipment, routers, and switches, ensuring the stable operation of communication networks and efficient data transmission.
In terms of usage, embedded open frame computer usually integrate their hardware modules seamlessly with the hardware of other devices through various interfaces to achieve close collaboration. At the same time, tailored software programs are developed to meet specific application requirements and run on their operating systems to achieve various unique functions. In terms of system configuration, parameters such as network, storage, and power management are carefully set according to different application scenarios. In addition, with the help of network connections, remote monitoring, fault diagnosis, and software updates are achieved, greatly reducing the cost of on-site maintenance. And the ability to collect and process data is a strong point of embedded computers. By utilizing rich sensor interfaces to collect external data and perform real-time processing and analysis, it provides scientific and accurate basis for decision-making.
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