Voicemail on future smartphone experiences

Voicemail on future smartphone experiences


The Voicemail on future of smartphone form factors

The last three years of smartphone progress can be described in one sentence: faster processors driving bigger screens with more pixels. For users, there is little real world functional difference between today’s flagship products and 2011 devices such as the iPhone 4S and Samsung Galaxy SII.

There have been incremental improvements across the board, but I struggle to pinpoint anything significant enough to be described as a generational leap forward. For comparison, consider the mass move from physical buttons to touchscreens prompted by the 2007 launch of the iPhone. Looking further back, Nokia’s 2002 launch of the 7650 camera phone heralded the rapid transition from phones designed primarily for the ear to devices designed for the eye.

Would the average, non-geek user with a device from 2011 really feel they are missing a major new ability or experience compared to owning a 2014 device?

With smartphone development slowing to the incremental, I have found myself wondering whether the next set of meaningful changes to the way users interact with the digital world will be delivered in a different form factor altogether?

I asked James Whatley and Stefan Constaninescu to answer this question on their podcast, The Voicemail and they were kind enough to reply in episode 107. I was interested in their views because, as a regular listener of their show, I know they both have a keen eye for separating hype from developments which matter to real users. As a result, they deliver a succinct 30 minute recap of industry news each week and are often accurate in spotting meaningful developments.

You can download the podcast episode and listen to their reply here from 23 mins 50 seconds in.

(I’d also recommend listening to the whole thing, and subscribing for future episodes too.)

Stefan said he would find it hard to predict three years into the future, not least because expected leaps forward in processing power could enable many new things. However, he also pointed to ‘Her’, the film about a man’s relationship with a computer as a vision of what may be possible.

James talked about the significance of wearables, looking beyond today’s implementations in wristwatches, and instead discussing the overall concept of moving notifications and interactions away from the screen of a smartphone. He speculated on what might happen as flexible electronics enable rollable displays.

Both answers seemed to point to experiences enabled by innovations beyond the smartphone itself. For instance, the virtual assistant in the film ‘Her’ is made possible by a combination of sensors and intelligence residing on banks of servers. The wearables James described are intermediaries between the user and their digital ecosystem, of which the smartphone is a part, but not necessarily much different from how we know it today.

I broadly agree this is the likely trajectory, with incrementally better smartphones remaining a significant and probably the dominant touchpoint in users lives, but the most meaningful new functional changes being driven by the introduction of new touchpoints, from wearable sensors to remote displays.

Much of this will already be familiar to the MEX community, as designing digital experiences which span and thrive in this multi-touchpoint world has been a big part of our conversation at the MEX events for several years. There’s a wealth of resource on this site exploring the topic.

However, if we focus specifically on the smartphone form factor alone, here are some common sense suggestions for experiences significant enough to differentiate products in the eyes of real customers. None of these are groundbreaking concepts, but in an industry where competitive response has overtaken common sense as the guiding light for product roadmaps, consider this a timely reminder of what matters to users:

  • Battery. There are almost no smartphones which can sustain more than five hours continuous, real world usage. If a user could leave home in the morning knowing they could use their phone literally all day – ten hours of screen time – it would change the way they used it.
  • Size. For every user who buys a device with a screen larger than five inches, there are more who want something smaller that supports genuinely one-handed usage. Currently they have two high-end choices: the iPhone and Sony’s Xperia Z1 Compact. Make it smaller, but just as powerful, and they will buy it: pay particular attention to reducing width – this is what makes it most difficult for users to reach the whole screen with their thumb, something the iPhone is uniquely suited to among high-end devices.
  • Customisation. Motorola’s Moto Maker has not set the world on fire, primarily because it was launched with poor pricing and marketing, then compounded by Motorola being acquired by Lenovo. However, the concept of customisation it introduced is attractive. Delivered at scale and a competitive price, allowing every user to customise the colour and finish of their device would be a differentiator.
  • Input method. The three occasions on which Apple has caused major disruption in product categories – the Mac, iPod and iPhone/Pad – all aligned with it perfecting a new input method: mouse for the Mac, the scroll wheel for the iPod and touchscreen for the iPhone/Pad. I wrote about this a while ago. There’s an opportunity waiting for the first smartphone manufacturer to develop an effective way of adding a sense of depth to input methods, probably by combining 3D visual effects in UI design and some kind of haptic feedback in the touchscreen. It is a simple formula: perfect a new input method, disrupt the category.

So, now it’s over to you: what else could make a difference to the future of smartphones? Innovation may be shifting to new categories, like wearables, but these devices we used to call mobile phones aren’t disappearing any time soon and I’m intrigued to know what would make a difference to the phone you’ll be carrying in your pocket in 2017. Please post your comment below.

2 Comments

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  1. 1
    Marek Pawlowski

    p.s. we’re talking specifically about innovations in the smartphone form factor here… Not disputing there’s going to be a wealth of innovation in other form factors, but curious to think about smartphones in particular.

  2. 2
    Mr. Dana Suess

    The battery problem is easy to rectify – offer a larger battery option (and compatible phone back cover) that is a few millimeters thicker. Power users who need an all-day battery will pay a premium for this option and a few millimeters thicker won’t make a difference to them.

    However, the most unreliable smartphone component is the QWERTY keyboard. Any ten-button wide keyboard results in inhumanly tiny, error prone buttons – particularly problematic for people with larger hands, diminished vision, older folks, people with disabilities, etc.

    The solution? QWERTY needs to be replaced with a keyboard layout designed specifically for smartphones. The layout must have bigger buttons, instantly offer an improved typing experience, need no instructions to operate and most importantly – the new layout must be fast and painless to learn.

    Such a layout is hosted in the “Big Buttons Keyboard” for Android. The special method used to arrive at the new matrix also works for Cyrillic, Arabic, etc.

    Compatible with swiping, word prediction and hard button keyboards – it’s the only keyboard layout that makes sense for smartphones.

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