I did some liveblogging of the second day of An Event Apart Chicago #aeachi:
Archive: August 27th, 2019
The Weight of the WWWorld is Up to Us by Patty Toland
A few years ago, a good friend of Patty’s had a medical diagnosis that required everyone to pull together. Another friend shared an article about how not to say the wrong thing. This is ring theory. In a moment of crisis, the person involved is in the centre. You need to understand where you are in this ring structure, and only ever help and comfort inwards and dump concerns and problems outwards.
At the same time, Patty spent time with her family at the beach. Everyone reads the same books together. There was a book about a platoon leader in Vietnam. 80% of the story was literally a litany of stuff—what everyone was carrying. This was peppered with the psychic and emotional loads that they were carrying.
There was a common assertion that slow networks were a third-world challenge. Remember Facebook’s network challenges? They always talked about new markets in India and Africa. The implication is that this isn’t our problem in, say, Omaha or New York.
Pew Research provided updated data this year. The research shows an increase in those trends. Half of the population access the web primarily on mobile. The cost of a broadband subscription is too expensive for many people. Sometimes broadband access simply isn’t available.
There’s a term called “the homework gap.” Two thirds of teachers assign broadband-dependent homework, while one third of students have no access to broadband.
At most 37% of people have unlimited data. Most people run out of data on a frequent basis.
Speed also varies wildly. 4G doesn’t really mean anything. The data is all over the place.
This shows that network issues are definitely not just a third world challenge.
On the 25th anniversary of the web, Tim Berners-Lee said the web’s potential was only just beginning to be glimpsed. Everyone has a role to play to ensure that the web serves all of humanity. In his contract for the web, Tim outlined what governments, companies, and users need to do. This reminded Patty of ring theory. The user is at the centre. Designers and developers are in the next circle out. Then there’s the circle of companies. Then there are platforms, browsers, and frameworks. Finally there’s the outer circle of governments.
There’s no way for a user to know before clicking a link how big and bloated the page is going to be. Even if they abandon the page load, they’ve still used (and wasted) a lot of data.
Third party scripts—like ads—are really bad at dumping in (to use the ring theory model). The best practices for ads suggest that up to 100 additional HTTP requests is totally acceptable. Unbelievable! It doesn’t matter how performant you’ve made a site when this crap gets piled on top of it.
In 2018, the internet’s data centres alone may already have had the same carbon footprint as all global air travel. This will probably triple in the next seven years. The amount of carbon it takes to train a single AI algorithm is more than the entire life cycle of a car. Then there’s fucking Bitcoin. A single Bitcoin transaction could power 21 US households. It is designed to use—specifically, waste—more and more energy over time.
What should we be doing?
Accessibility should be at the heart of what we build. Plan, test, educate, and advocate. If advocacy doesn’t work, fear can be a motivator. There’s an increase in accessibility lawsuits.
Our websites should be as light as possible. Ask, measure, monitor, and optimise. RequestMap is a great tool for visualising requests. You can see the size and scale of third-party requests. You can also see when images are far, far bigger than they need to be.
Take a critical guide to everything and pare everything down. Set perforance budgets—file size budgets, for example. Optimise images, subset custom fonts, lazyload images and videos, get third-party tools out of the critical path (or out completely), and seek out lighter frameworks.
Push the boundaries. See the amazing work that Adrian Holovaty did with Soundslice. He had to make on-the-fly sheet music generation work on old iPads that musicians like to use. He recommends keeping old devices around to see how poorly your product is working on it.
If you have some power, then your job is to empower somebody else.
Web Forms: Now You See Them, Now You Don’t! by Jason Grigsby
Jason is on stage at An Event Apart Chicago in a tuxedo. He wants to talk about how we can make web forms magical. Oh, I see. That explains the get-up.
We’re always being told to make web forms shorter. Luke Wroblewski has highlighted the work of companies that have reduced form fields and increased conversion.
But what if we could get rid of forms altogether? Wouldn’t that be magical!
Jason will reveal the secrets to this magic. But first—a volunteer from the audience, please! Please welcome Joe to the stage.
Joe will now log in on a phone. He types in the username. Then the password. The password is hodge-podge of special characters, numbers and upper and lowercase letters. Joe starts typing. Jason takes the phone and logs in without typing anything!
The secret: Jason was holding an NFC security key in his hand. That works with a new web standard called WebAuthn.
Passwords are terrible. People share them across sites, but who can blame them? It’s hard to remember lots of passwords. The only people who love usernames and passwords are hackers. So sites are developing other methods to try to keep people secure. Two factor authentication helps, although it doesn’t help us with phishing attacks. The hacker gets the password from the phished user …and then gets the one-time code from the phished user too.
But a physical device like a security key solves this problem. So why aren’t we all using security keys (apart from the fear of losing the key)? Well, until WebAuthn, there wasn’t a way for websites to use the keys.
A web server generates a challenge—a long string—that gets sent to a website and passed along to the user. The user’s device generates a credential ID and public and private keys for that domain. The web site stores the public key and credential ID. From then on, the credential ID is used by the website in challenges to users logging in.
There were three common ways that we historically proved who we claimed to be.
- Something you know (e.g. a password).
- Something you have (e.g. a security key).
- Something you are (e.g. biometric information).
These are factors of identification. So two-factor identification is the combination of any of those two. If you use a security key combined with a fingerprint scanner, there’s no need for passwords.
The browser support for the web authentication API (WebAuthn) is a bit patchy right now but you can start playing around with it.
There are a few other options for making logging in faster. There’s the Credential Management API. It allows someone to access passwords stored in their browser’s password manager. But even though it’s newer, there’s actually better browser support for WebAuthn than Credential Management.
Then there’s federated login, or social login. Jason has concerns about handing over log-in to a company like Facebook, Twitter, or Google, but then again, it means fewer passwords. As a site owner, there’s actually a lot of value in not storing log-in information—you won’t be accountable for data breaches. The problem is that you’ve got to decide which providers you’re going to support.
Also keep third-party password managers in mind. These tools—like 1Password—are great. In iOS they’re now nicely integrated at the operating system level, meaning Safari can use them. Finally it’s possible to log in to websites easily on a phone …until you encounter a website that prevents you logging in this way. Some websites get far too clever about detecting autofilled passwords.
Time for another volunteer from the audience. This is Tyler. Tyler will help Jason with a simple checkout form. Shipping information, credit card information, and so on. Jason will fill out this form blindfolded. Tyler will first verify that the dark goggles that Jason will be wearing don’t allow him to see the phone screen. Jason will put the goggles on and Tyler will hand him the phone with the checkout screen open.
Jason dons the goggles. Tyler hands him the phone. Jason does something. The form is filled in and submitted!
What was the secret? The goggles prevented Jason from seeing the phone …but they didn’t prevent the screen from seeing Jason. The goggles block everything but infrared. The iPhone uses infrared for Face ID. So the iPhone, it just looked like Jason was wearing funky sunglasses. Face ID then triggered the Payment Request API.
The Payment Request API allows us to use various payment methods that are built in to the operating system, but without having to make separate implementations for each payment method. The site calls the Payment Request API if it’s supported (use feature detection and progressive enhancement), then trigger the payment UI in the browser. The browser—not the website!—then makes a call to the payment processing provider e.g. Stripe.
E-commerce sites using the Payment Request API have seen a big drop in abandonment and a big increase in completed payments. The browser support is pretty good, especially on mobile. And remember, you can use it as a progressive enhancement. It’s kind of weird that we don’t encounter it more often—it’s been around for a few years now.
Jason read the fine print for Apple Pay, Google Pay, Microsoft Pay, and Samsung Pay. It doesn’t like there’s anything onerous in there that would stop you using them.
On some phones, you can now scan credit cards using the camera. This is built in to the operating system so as a site owner, you’ve just got to make sure not to break it. It’s really an extension of autofill. You should know what values the
autocomplete attribute can take. There are 48 different values; it’s not just for checkouts. When users use autofill, they fill out forms 30% faster. So make sure you don’t put obstacles in the way of autofill in your forms.
Jason proceeds to relate a long and involved story about buying burritos online from Chipotle. The upshot is: use the
pattern attributes correctly on
input elements. Test autofill with your forms. Make it part of your QA process.
So, to summarise, here’s how you make your forms disappear:
- Start by reducing the number of form fields.
- Use the correct HTML to support autofill. Support password managers and password-pasting. At least don’t break that behaviour.
- Provide alternate ways of logging in. Federated login or the Credentials API.
- Test autofill and other form features.
- Look for opportunities to replace forms entirely with biometrics.
Any sufficiently advanced technology is indistinguishable from magic.
—Arthur C. Clarke’s Third Law
Don’t our users deserve magical experiences?
Replying to a tweet from @cramforce
Thanks for doing that—much appreciated!
Voice User Interface Design by Cheryl Platz
Why make a voice interface?
Successful voice interfaces aren’t necessarily solving new problems. They’re used to solve problems that other devices have already solved. Think about kitchen timers. There are lots of ways to set a timer. Your oven might have one. Your phone has one. Why use a $200 device to solve this mundane problem? Same goes for listening to music, news, and weather.
People are using voice interfaces for solving ordinary problems. Why? Context matters. If you’re carrying a toddler, then setting a kitchen timer can be tricky so a voice-activated timer is quite appealing. But why is voice is happening now?
Humans have been developing the art of conversation for thousands of years. It’s one of the first skills we learn. It’s deeply instinctual. Most humans use speach instinctively every day. You can’t necessarily say that about using a keyboard or a mouse.
Voice-based user interfaces are not new. Not just the idea—which we’ve seen in Star Trek—but the actual implementation. Bell Labs had Audrey back in 1952. It recognised ten words—the digits zero through nine. Why did it take so long to get to Alexa?
In the late 70s, DARPA issued a challenge to create a voice-activated system. Carnagie Mellon came up with Harpy (with a thousand word grammar). But none of the solutions could respond in real time. In conversation, we expect a break of no more than 200 or 300 milliseconds.
In the 1980s, computing power couldn’t keep up with voice technology, so progress kind of stopped. Time passed. Things finally started to catch up in the 90s with things like Dragon Naturally Speaking. But that was still about vocabulary, not grammar. By the 2000s, small grammars were starting to show up—starting an X-Box or pausing Netflix. In 2008, Google Voice Search arrived on the iPhone and natural language interaction began to arrive.
What makes natural language interactions so special? It requires minimal training because it uses the conversational muscles we’ve been working for a lifetime. It unlocks the ability to have more forgiving, less robotic conversations with devices. There might be ten different ways to set a timer.
Natural language interactions can also free us from “screen magnetism”—that tendency to stay on a device even when our original task is complete. Voice also enables fast and forgiving searches of huge catalogues without time spent typing or browsing. You can pick a needle straight out of a haystack.
Natural language interactions are excellent for older customers. These interfaces don’t intimidate people without dexterity, vision, or digital experience. Voice input often leads to more inclusive experiences. Many customers with visual or physical disabilities can’t use traditional graphical interfaces. Voice experiences throw open the door of opportunity for some people. However, voice experience can exclude people with speech difficulties.
Making the case for voice interfaces
There’s a misconception that you need to work at Amazon, Google, or Apple to work on a voice interface, or at least that you need to have a big product team. But Cheryl was able to make her first Alexa “skill” in a week. If you’re a web developer, you’re good to go. Your voice “interaction model” is just JSON.
How do you get your product team on board? Find the customers (and situations) you might have excluded with traditional input. Tell the stories of people whose hands are full, or who are vision impaired. You can also point to the adoption rate numbers for smart speakers.
You’ll need to show your scenario in context. Otherwise people will ask, “why can’t we just build an app for this?” Conduct research to demonstrate the appeal of a voice interface. Storyboarding is very useful for visualising the context of use and highlighting existing pain points.
Getting started with voice interfaces
You’ve got to understand how the technology works in order to adapt to how it fails. Here are a few basic concepts.
Utterance. A word, phrase, or sentence spoken by a customer. This is the true form of what the customer provides.
Intent. This is the meaning behind a customer’s request. This is an important distinction because one intent could have thousands of different utterances.
Prompt. The text of a system response that will be provided to a customer. The audio version of a prompt, if needed, is generated separately using text to speech.
Grammar. A finite set of expected utterances. It’s a list. Usually, each entry in a grammar is paired with an intent. Many interfaces start out as being simple grammars before moving on to a machine-learning model later once the concept has been proven.
Here’s the general idea with “artificial intelligence”…
There’s a human with a core intent to do something in the real world, like knowing when the cookies in the oven are done. This is translated into an intent like, “set a 15 minute timer.” That’s the utterance that’s translated into a string. But it hasn’t yet been parsed as language. That string is passed into a natural language understanding system. What comes is a data structure that represents the customers goal e.g. intent=timer; duration=15 minutes. That’s sent to the business logic where a timer is actually step. For a good voice interface, you also want to send back a response e.g. “setting timer for 15 minutes starting now.”
That seems simple enough, right? What’s so hard about designing for voice?
Natural language interfaces are a form of artifical intelligence so it’s not deterministic. There’s a lot of ruling out false positives. Unlike graphical interfaces, voice interfaces are driven by probability.
How do you turn a sound wave into an understandable instruction? It’s a lot like teaching a child. You feed a lot of data into a statistical model. That’s how machine learning works. It’s a probability game. That’s where it gets interesting for design—given a bunch of possible options, we need to use context to zero in on the most correct choice. This is where confidence ratings come in: the system will return the probability that a response is correct. Effectively, the system is telling you how sure or not it is about possible results. If the customer makes a request in an unusual or unexpected way, our system is likely to guess incorrectly. That’s because the system is being given something new.
Designing a conversation is relatively straightforward. But 80% of your voice design time will be spent designing for what happens when things go wrong. In voice recognition, edge cases are front and centre.
Here’s another challenge. Interaction with most voice interfaces is part conversation, part performance. Most interactions are not private.
Humans don’t distinguish digital speech fom human speech. That means these devices are intrinsically social. Our brains our wired to try to extract social information, even form digital speech. See, for example, why it’s such a big question as to what gender a voice interface has.
Delivering a voice interface
Storyboards help depict the context of use. Sample dialogues are your new wireframes. These are little scripts that not only cover the happy path, but also your edge case. Then you reverse engineer from there.
Flow diagrams communicate customer states, but don’t use the actual text in them.
Prompt lists are your final deliverable.
Functional prototypes are really important for voice interfaces. You’ll learn the real way that customers will ask for things.
If you build a working prototype, you’ll be building two things: a natural language interaction model (often a JSON file) and custom business logic (in a programming language).
Eventually voice design will become a core competency, much like mobile, which was once separate.
Ask yourself what tasks your customers complete on your site that feel clunkly. Remember that voice desing is almost never about new scenarious. Start your journey into voice interfaces by tackling old problems in new, more inclusive ways.
May the voice be with you!
Replying to a tweet from @lovevfp
I would love to! …But it might be very tricky to make it work as I’m speaking at An Event Apart in San Francisco right before that: https://aneventapart.com/event/san-francisco-2019
Drop me a line—jeremy at adactio dot com.
Making Research Count by Cyd Harrell
Research gets done …and then sits in a report, gathering dust.
Research matters. But how do we make it count? We need allies. Maybe we need more money. Perhaps we need more participation from people not on the product team.
If you’re doing real research on a schedule, sharing it on a regular basis, making people’s eyes light up …then you’ve won!
Research counts when it answers questions that people care about. But you probably don’t want to directly ask “Hey, what questions do you want answered?”
Research can explain oddities in analytics weird feedback from customers, unexpected uses of products, and strange hunches (not just your own).
Curious people with power are the most useful ones to influence. Not just hierarchical power. Engineers often have a lot of power. So ask, “Who is the most curious engineer, and how can I drag them out on a research session with me?”
At 18F, Cyd found that a lot of the nodes of power were in the mid level of the organisation who had been there a while—they know a lot of people up and down the chain. If you can get one of those people excited about research, they can spread it.
Open up your practice. Demystify it. Put as much effort into communicating as into practicing. Create opportunities for people to ask questions and learn.
You can think about communities of practice in the obvious way: people who do similar things to us, and other people who make design decisions. But really, everyone in the organisation is affected by design decisions.
Cyd likes to do office hours. People can come by and ask questions. You could open a Slack channel. You can run brown bag lunches to train people in basic user research techniques. In more conventional organisations, a newsletter is a surprisingly effective tool for sharing the latest findings from research. And use your walls to show work in progress.
Research counts when people can see it for themselves—not just when it’s reported from afar. Ask yourself: who in your organisation is disconnected from their user? It’s difficult for people to maintain their motivation in that position.
When someone has been in the field with you, the data doesn’t have to be explained.
Whoever’s curious. Whoever’s disconnected. Invite them along. Show them what you’re doing.
Think about the qualities of a good invitation (for a party, say). Make the rules clear. Make sure they want to come back. Design the experience of observing research. Make sure everyone has tools. Give everyone a responsibility. Be like Willy Wonka—he gave clear rules to the invitied guests. And sure, things didn’t go great when people broke the rules, but at the end, everyone still went home with the truckload of chocolate they were promised.
People who get to ask a question buy in to the results. Those people feel a sense of ownership for the research.
Research counts when methods fit the question. Think about what the right question is and how you might go about answering it.
You can mix your methods. Interviews. Diary studies. Card sorting. Shadowing. You can ground the user research in competitor analysis.
Back in 2008, Cyd was contacted by a company who wanted to know: how do people really use phones in their cars? Cyd’s team would ride along with people, interviewing them, observing them, taking pictures and video.
Later at the federal government, Cyd was asked: what are the best practices for government digital transformation? How to answer that? It’s so broad! Interviews? Who knows what?
They refined the question: what makes modern digital practices stick within a government entity? They looked at what worked when companies were going online, so see if there was anything that government could learn from. Then they created a set of really focused interview questions. What does digital transformation mean? How do you know when you’re done? What are the biggest obstacles to this work? How do you make changes last?
They used atechnique called cluster recruiting to figure out who else to talk to (by asking participants who else they should be talking to).
There is no one research method that will always work for you. Cutting the right corners at the right time lets you be fast and cheap. Cyd’s bare-bones research kit costs about $20: a notebook, a pen, a consent form, and the price of a cup of coffee. She also created a quick score sheet for when she’s not in a position to have research transcribed.
Always label your assumptions before beginning your research. Maybe you’re assuming that something is a frustrating experience that needs fixing, but it might emerge that it doesn’t need fixing—great! You’ve just saved a whole lotta money.
Research counts when researchers tell the story well. Synthesis works best as a conversational practice. It’s hard to do by yourself. You start telling stories when you come back from the field (sometimes it starts when you’re still out in the field, talking about the most interesting observations).
Miller’s Law is a great conceptual framework:
To understand what another person is saying, you must assume that it is true and try to imagine what it could be true of.
You’re probably familiar with the “five whys”. What about the “five ways”? If people talk about something five different ways, it’s virtually certain that one of them will be an apt metaphor. So ask “Can you say that in a different way?” five time.
Spend as much time on communicating outcomes as you did on executing the work.
After research, play back how many people you spoke to, the most valuable insight you gained, the themes that are emerging. Describe the question you wanted to answer, what answers you got, and what you’re going to do next. If you’re in an organisation that values memos, write a memo. Or you could make a video. Or you could write directly into backlog tickets. And don’t forget the wall work! GDS have wonderfully full walls in their research department.
In the end, the best tool for research is an illuminating story.
Cyd was doing research at the Bakersfield courthouse. The hypothesis was that a lot of people weren’t engaging with technology in the court system. She approached a man named Manuel who was positively quaking. He was going through a custody battle. He said, “I don’t know technology but it doesn’t scare me. I’m shaking because this paperwork just gets to me—it’s terrifying.” He said who would gladly pay for someone to help him with the paperwork. Cyd wrote a report on this story. Months later, they heard people in the organisation asking questions like “How would this help Manuel?”
Sometimes you do have to fight (nicely).
People will push back on the time spent on research—they’ll say it doesn’t fit the sprint plan. You can have a three day research plan. Day 1: write scripts. Day 2: go to the users and talk to them. Day 3: play it back. People on a project spend more time than that in Slack.
People will say you can’t talk to the customers. In that situation, you could talk to people who are in the same sector as your company’s customers.
People will question the return on investment for research. Do it cheaply and show the very low costs. Then people stop talking about the money and start talking about the results.
People will claim that qualitative user research is not statistically significant. That’s true. But research is something else. It answers different question.
People will question whether a senior person needs to be involved. It is not fair to ask the intern to do all the work involved in research.
People will say you can’t always do research. But Cyd firmly believes that there’s always room for some research.
- Make allies in customer research.
- Find the most curious engineer on the team, go to lunch with them, and feed them the most interesting research insights.
- Record a pain point and a send a video to executives.
- If there’s really no budget, maybe you can get away with not paying incentives, but perhaps you can provide some other swag instead.
One of the best things you can do is be there, non-judgementally, making friends. It takes time, but it works. Research is like a dandelion in flight. Once it’s out and about, taking root, the more that research counts.