Smartphone technology has come a long way since its inception. From the early flip phone to the more recent folding phone, vast changes have occurred and will continue to appear in the years to come. But, where is smartphone technology headed and what can consumers expect in the coming decade?
Richard Galvan is an entrepreneur and tech expert from Rio Grande Valley, Texas. Richard started his first job at Dell in 1994. There, he developed a passion for technology. Within 10 years, he had traveled to almost every country in Latin America as Dell’s regional account manager. Today, Galvan is co-owner of G5 Internet Services. He and his wife Sonia Galvan own and operate G5 Internet Services in Rio Grande Valley, Texas. Their company delivers high-speed internet and streaming services to many customers, including residential consumers, commercial locations, and state and local governments. With an extensive background in technology, Mr. Galvan shares his insight into the future of smartphone technology.
Diverse Interaction Options
In recent years, the introduction of the touchscreen sparked a significant interest. Today, nearly every smart device incorporates this technology. As a result, the market is saturated. For smartphone developers, this means that it’s time to move on. In the coming years, Richard Galvan predicts that consumers will see all kinds of new interaction technology. From more complex voice controls to motion control, smartphone technology is expected to move towards more natural and efficient forms of interaction.
Smartphones as Digital Assistants
Consumers have already seen digital assistant technology built into their smartphones. From Siri to Cortana and others, many people use these tools to help organize their daily lives. However, with the help of AI and even more advanced smartphone technology, consumers can expect to soon have a highly-capable personal assistant in their pocket at all times. A report published by eMarketer projects that nearly 40% of Americans use voice assistants at least once a month, with this number expected to increase significantly in the coming years. This trend suggests that smartphone developers will integrate additional voice control features and more complex voice assistant tools. Richard Galvan suspects that these new, upgraded digital assistants will incorporate tools for all aspects of life, including healthcare and diagnosis instruments, as well as mental health tools. As a result, smartphones will completely manage our personal and professional lives.
Some smartphone producers have already started moving away from headphone jacks and ports. Moving forward, consumers can expect this trend to continue. In fact, it is expected that in the near future, all smartphones will use Bluetooth technology and wireless charging — no ports needed. As other technologies allow for interaction via Bluetooth, this will start to become a plausible reality. For example, as more and more sound systems and vehicles incorporate Bluetooth and wireless charging capabilities there will be no need for ports on smartphones.
A Blast from the Past
While it might seem like a step backward in terms of technology, several smartphone makers are currently developing flip phones. Although the design may mirror flip phones from the past, the technology will unlikely revert to what it was. Richard Galvan predicts that phone developers will incorporate new technologies along with nostalgic aesthetics. For instance, new flip phones will likely incorporate foldable touchscreens to maintain the ease of use provided by larger screen sizes.
Richard Galvan on Malleable Screens
Consumers have already witnessed phone screens progress from a solid piece of glass to a foldable display. It is expected that this trend will continue, with new stretchable screens on the horizon. With this development, smartphone screens will be able to be stretched, folded, and manipulated. The idea behind this new technology, notes Richard Galvan, is that it will allow for larger screen sizes but still provide the ability to store the device in a smaller compact form.