Getting To The Bottom Of Minimum WCAG-Conformant Interactive Element Size

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There are many rumors and misconceptions about conforming to WCAG criteria for the minimum sizing of interactive elements. I’d like to use this post to demystify what is needed for baseline compliance and to point out an approach for making successful and inclusive interactive experiences using ample target sizes.

Minimum Conformant Pixel Size

Getting right to it: When it comes to pure Web Content Accessibility Guidelines (WCAG) conformance, the bare minimum pixel size for an interactive, non-inline element is 24×24 pixels. This is outlined in Success Criterion 2.5.8: Target Size (Minimum).

Success Criterion 2.5.8 is level AA, which is the most commonly used level for public, mass-consumed websites. This Success Criterion (or SC for short) is sometimes confused for SC 2.5.5 Target Size (Enhanced), which is level AAA. The two are distinct and provide separate guidance for properly sizing interactive elements, even if they appear similar at first glance.

SC 2.5.8 is relatively new to WCAG, having been released as part of WCAG version 2.2, which was published on October 5th, 2023. WCAG 2.2 is the most current version of the standard, but this newer release date means that knowledge of its existence isn’t as widespread as the older SC, especially outside of web accessibility circles. That said, WCAG 2.2 will remain the standard until WCAG 3.0 is released, something that is likely going to take 10–15 years or more to happen.

SC 2.5.5 calls for larger interactive elements sizes that are at least 44×44 pixels (compared to the SC 2.5.8 requirement of 24×24 pixels). At the same time, notice that SC 2.5.5 is level AAA (compared to SC 2.5.8, level AA) which is a level reserved for specialized support beyond level AA.

Sites that need to be fully WCAG Level AAA conformant are rare. Chances are that if you are making a website or web app, you’ll only need to support level AA. Level AAA is often reserved for large or highly specialized institutions.

Making Interactive Elements Larger With CSS Padding

The family of padding-related properties in CSS can be used to extend the interactive area of an element to make it conformant. For example, declaring padding: 4px; on an element that measures 16×16 pixels invisibly increases its bounding box to a total of 24×24 pixels. This, in turn, means the interactive element satisfies SC 2.5.8.

This is a good trick for making smaller interactive elements easier to click and tap. If you want more information about this sort of thing, I enthusiastically recommend Ahmad Shadeed’s post, “Designing better target sizes”.

I think it’s also worth noting that CSS margin could also hypothetically be used to achieve level AA conformance since the SC includes a spacing exception:

The size of the target for pointer inputs is at least 24×24 CSS pixels, except where:

Spacing: Undersized targets (those less than 24×24 CSS pixels) are positioned so that if a 24 CSS pixel diameter circle is centered on the bounding box of each, the circles do not intersect another target or the circle for another undersized target;

[…]

The difference here is that padding extends the interactive area, while margin does not. Through this lens, you’ll want to honor the spirit of the success criterion because partial conformance is adversarial conformance. At the end of the day, we want to help people successfully click or tap interactive elements, such as buttons.

What About Inline Interactive Elements?

We tend to think of targets in terms of block elements — elements that are displayed on their own line, such as a button at the end of a call-to-action. However, interactive elements can be inline elements as well. Think of links in a paragraph of text.

Inline interactive elements, such as text links in paragraphs, do not need to meet the 24×24 pixel minimum requirement. Just as margin is an exception in SC 2.5.8: Target Size (Minimum), so are inline elements with an interactive target:

The size of the target for pointer inputs is at least 24×24 CSS pixels, except where:

[…]

Inline: The target is in a sentence or its size is otherwise constrained×the line-height of non-target text;

[…]

Apple And Android: The Source Of More Confusion

If the differences between interactive elements that are inline and block are still confusing, that’s probably because the whole situation is even further muddied by third-party human interface guidelines requiring interactive sizes closer to what the level AAA Success Criterion 2.5.5 Target Size (Enhanced) demands.

For example, Apple’s “Human Interface Guidelines” and Google’s “Material Design” are guidelines for how to design interfaces for their respective platforms. Apple’s guidelines recommend that interactive elements are 44×44 points, whereas Google’s guides stipulate target sizes that are at least 48×48 using density-independent pixels.

These may satisfy Apple and Google requirements for designing interfaces, but are they WCAG-conformant Apple and Google — not to mention any other organization with UI guidelines — can specify whatever interface requirements they want, but are they copasetic with WCAG SC 2.5.5 and SC 2.5.8?

It’s important to ask this question because there is a hierarchy when it comes to accessibility compliance, and it contains legal levels:

Human interface guidelines often inform design systems, which, in turn, influence the sites and apps that are built by authors like us. But they’re not the “authority” on accessibility compliance. Notice how everything is (and ought to be) influenced by WCAG at the very top of the chain.

Even if these third-party interface guidelines conform to SC 2.5.5 and 2.5.8, it’s still tough to tell when they are expressed in “points” and “density independent pixels” which aren’t pixels, but often get conflated as such. I’d advise not getting too deep into researching what a pixel truly is-pixel%3F). Trust me when I say it’s a road you don’t want to go down. But whatever the case, the inconsistent use of unit sizes exacerbates the issue.

Can’t We Just Use A Media Query?

I’ve also observed some developers attempting to use the pointer media feature as a clever “trick” to detect when a touchscreen is present, then conditionally adjust an interactive element’s size as a way to get around the WCAG requirement.

After all, mouse cursors are for fine movements, and touchscreens are for more broad gestures, right? Not always. The thing is, devices are multimodal. They can support many different kinds of input and don’t require a special switch to flip or button to press to do so. A straightforward example of this is switching between a trackpad and a keyboard while you browse the web. A less considered example is a device with a touchscreen that also supports a trackpad, keyboard, mouse, and voice input.

You might think that the combination of trackpad, keyboard, mouse, and voice inputs sounds like some sort of absurd, obscure Frankencomputer, but what I just described is a Microsoft Surface laptop, and guess what? They’re pretty popular.

Responsive Design Vs. Inclusive Design

There is a difference between the two, even though they are often used interchangeably. Let’s delineate the two as clearly as possible:

  • Responsive Design is about designing for an unknown device.
  • Inclusive Design is about designing for an unknown user.

The other end of this consideration is that people with motor control conditions — like hand tremors or arthritis — can and do use mice inputs. This means that fine input actions may be painful and difficult, yet ultimately still possible to perform.

People also use more precise input mechanisms for touchscreens all the time, including both official accessories and aftermarket devices. In other words, some devices designed to accommodate coarse input can also be used for fine detail work.

I’d be remiss if I didn’t also point out that people plug mice and keyboards into smartphones. We cannot automatically say that they only support coarse pointers:

Context Is King

Conformant and successful interactive areas — both large and small — require knowing the ultimate goals of your website or web app. When you arm yourself with this context, you are empowered to make informed decisions about the kinds of people who use your service, why they use the service, and how you can accommodate them.

For example, the Glow Baby app uses larger interactive elements because it knows the user is likely holding an adorable, albeit squirmy and fussy, baby while using the application. This allows Glow Baby to emphasize the interactive targets in the interface to accommodate parents who have their hands full.

In the same vein, SC SC 2.5.8 acknowledges that smaller touch targets — such as those used in map apps — may contextually be exempt:

For example, in digital maps, the position of pins is analogous to the position of places shown on the map. If there are many pins close together, the spacing between pins and neighboring pins will often be below 24 CSS pixels. It is essential to show the pins at the correct map location; therefore, the Essential exception applies.

[…]

When the "Essential" exception is applicable, authors are strongly encouraged to provide equivalent functionality through alternative means to the extent practical.

Note that this exemption language is not carte blanche to make your own work an exception to the rule. It is more of a mechanism, and an acknowledgment that broadly applied rules may have exceptions that are worth thinking through and documenting for future reference.

Further Considerations

We also want to consider the larger context of the device itself as well as the environment the device will be used in.

Larger, more fixed position touchscreens compel larger interactive areas. Smaller devices that are moved around in space a lot (e.g., smartwatches) may benefit from alternate input mechanisms such as voice commands.

What about people who are driving in a car? People in this context probably ought to be provided straightforward, simple interactions that are facilitated via large interactive areas to prevent them from taking their eyes off the road. The same could also be said for high-stress environments like hospitals and oil rigs.

Similarly, devices and apps that are designed for children may require interactive areas that are larger than WCAG requirements for interactive areas. So would experiences aimed at older demographics, where age-derived vision and motor control disability factors tend to be more present.

Minimum conformant interactive area experiences may also make sense in their own contexts. Data-rich, information-dense experiences like the Bloomberg terminal come to mind here.

Design Systems Are Also Worth Noting

While you can control what components you include in a design system, you cannot control where and how they’ll be used by those who adopt and use that design system. Because of this, I suggest defensively baking accessible defaults into your design systems because they can go a long way toward incorporating accessible practices when they’re integrated right out of the box.

One option worth consideration is providing an accessible range of choices. Components, like buttons, can have size variants (e.g., small, medium, and large), and you can provide a minimally conformant interactive target on the smallest variant and then offer larger, equally conformant versions.

So, How Do We Know When We’re Good?

There is no magic number or formula to get you that perfect Goldilocks “not too small, not too large, but just right” interactive area size. It requires knowledge of what the people who want to use your service want, and how they go about getting it.

The best way to learn that? Ask people.

Accessibility research includes more than just asking people who use screen readers what they think. It’s also a lot easier to conduct than you might think! For example, prototypes are a great way to quickly and inexpensively evaluate and de-risk your ideas before committing to writing production code. “Conducting Accessibility Research In An Inaccessible Ecosystem” by Dr. Michele A. Williams is chock full of tips, strategies, and resources you can use to help you get started with accessibility research.

Wrapping Up

The bottom line is that

“Compliant” does not always equate to “usable.” But compliance does help set baseline requirements that benefit everyone.

To sum things up:

  • 24×24 pixels is the bare minimum in terms of WCAG conformance.
  • Inline interactive elements, such as links placed in paragraphs, are exempt.
  • 44×44 pixels is for WCAG level AAA support, and level AAA is reserved for specialized experiences.
  • Human interface guidelines by the likes of Apple, Android, and other companies must ultimately confirm to WCAG.
  • Devices are multimodal and can use different kinds of input concurrently.
  • Baking sensible accessible defaults into design systems can go a long way to ensuring widespread compliance.
  • Larger interactive element sizes may be helpful in many situations, but might not be recognized as an interactive element if they are too large.
  • User research can help you learn about your audience.

And, perhaps most importantly, all of this is about people and enabling them to get what they need.

Further Reading

Build Design Systems With Penpot Components

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This article is a sponsored by Penpot

If you’ve been following along with our Penpot series, you’re already familiar with this exciting open-source design tool and how it is changing the game for designer-developer collaboration. Previously, we’ve explored Penpot’s Flex Layout and Grid Layout features, which bring the power of CSS directly into the hands of designers.

Today, we’re diving into another crucial aspect of modern web design and development: components. This feature is a part of Penpot’s major 2.0 release, which introduces a host of new capabilities to bridge the gap between design and code further. Let’s explore how Penpot’s implementation of components can supercharge your design workflow and foster even better collaboration across teams.

About Components

Components are reusable building blocks that form the foundation of modern user interfaces. They encapsulate a piece of UI or functionality that can be reused across your application. This concept of composability — building complex systems from smaller, reusable parts — is a cornerstone of modern web development.

Why does composability matter? There are several key benefits:

  • Single source of truth
    Changes to a component are reflected everywhere it’s used, ensuring consistency.
  • Flexibility with simpler dependencies
    Components can be easily swapped or updated without affecting the entire system.
  • Easier maintenance and scalability
    As your system grows, components help manage complexity.

In the realm of design, this philosophy is best expressed in the concept of design systems. When done right, design systems help to bring your design and code together, reducing ambiguity and streamlining the processes.

However, that’s not so easy to achieve when your designs are built using logic and standards that are much different from the code they’re related to. Penpot works to solve this challenge through its unique approach. Instead of building visual artifacts that only mimic real-world interfaces, UIs in Penpots are built using the same technologies and standards as real working products.

This gives us much better parity between the media and allows designers to build interfaces that are already expressed as code. It fosters easier collaboration as designers and developers can speak the same language when discussing their components. The final result is more maintainable, too. Changes created by designers can propagate consistently, making it easier to manage large-scale systems.

Now, let’s take a look at how components in Penpot work in practice! As an example, I’m going to use the following fictional product page and recreate it in Penpot:

Components In Penpot

Creating Components

To create a component in Penpot, simply select the objects you want to include and select “Create component” from the context menu. This transforms your selection into a reusable element.

Creating Component Variants

Penpot allows you to create variants of your components. These are alternative versions that share the same basic structure but differ in specific aspects like color, size, or state.

You can create variants by using slashes (/) in the components name, for example, by naming your buttons Button/primary and Button/secondary. This will allow you to easily switch between types of a Button component later.

Nesting Components And Using External Libraries

Components in Penpot can be nested, allowing you to build complex UI elements from simpler parts. This mirrors how developers often structure their code. In other words, you can place components inside one another.

Moreover, the components you use don’t have to come from the same file or even from the same organization. You can easily share libraries of components across projects just as you would import code from various dependencies into your codebase. You can also import components from external libraries, such as UI kits and icon sets. Penpot maintains a growing list of such resources for you to choose from, including everything from the large design systems like Material Design to the most popular icon libraries.

Organizing Your Design System

The new major release of Penpot comes with a redesigned Assets panel, which is where your components live. In the Assets panel, you can easily access your components and drag and drop them into designs.

For the better maintenance of design systems, Penpot allows you to store your colors and typography as reusable styles. Same as components, you can name your styles and organize them into hierarchical structures.

Configuring Components

One of the main benefits of using composable components in front-end libraries such as React is their support of props. Component props (short for properties) allow you a great deal of flexibility in how you configure and customize your components, depending on how, where, and when they are used.

Penpot offers similar capabilities in a design tool with variants and overrides. You can switch variants, hide elements, change styles, swap nested components within instances, or even change the whole layout of a component, providing flexibility while maintaining the link to the original component.

Creating Flexible, Scalable Systems

Allowing you to modify Flex and Grid layouts in component instances is where Penpot really shines. However, the power of these layout features goes beyond the components themselves.

With Flex Layout and Grid Layout, you can build components that are much more faithful to their code and easier to modify and maintain. But having those powerful features at your fingertips means that you can also place your components in other Grid and Flex layouts. That’s a big deal as it allows you to test your components in scenarios much closer to their real environment. Directly in a design tool, you can see how your component would behave if you put it in various places on your website or app. This allows you to fine-tune how your components fit into a larger system. It can dramatically reduce friction between design and code and streamline the handoff process.

Generating Components Code

As Penpot’s components are just web-ready code, one of the greatest benefits of using it is how easily you can export code for your components. This feature, like all of Penpot’s capabilities, is completely free.

Using Penpot’s Inspect panel, you can quickly grab all the layout properties and styles as well as the full code snippets for all components.

Documentation And Annotations

To make design systems in Penpot even more maintainable, it includes annotation features to help you document your components. This is crucial for maintaining a clear design system and ensuring a smooth handoff to developers.

Summary

Penpot’s implementation of components and its support for real CSS layouts make it a standout tool for designers who want to work closely with developers. By embracing web standards and providing powerful, flexible components, Penpot enables designers to create more developer-friendly designs without sacrificing creativity or control.

All of Penpot’s features are completely free for both designers and developers. As open-source software, Penpot lets you fully own your design tool experience and makes it accessible for everyone, regardless of team size and budget.

Ready to dive in? You can explore the file used in this article by downloading it and importing into your Penpot account.

As the design tool landscape continues to evolve, Penpot is taking charge of bringing designers and developers closer together. Whether you’re a designer looking to understand the development process or a developer seeking to streamline your workflow with designers, Penpot’s component system is worth exploring.

How To Design Effective Conversational AI Experiences: A Comprehensive Guide

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Conversational AI is revolutionizing information access, offering a personalized, intuitive search experience that delights users and empowers businesses. A well-designed conversational agent acts as a knowledgeable guide, understanding user intent and effortlessly navigating vast data, which leads to happier, more engaged users, fostering loyalty and trust. Meanwhile, businesses benefit from increased efficiency, reduced costs, and a stronger bottom line. On the other hand, a poorly designed system can lead to frustration, confusion, and, ultimately, abandonment.

Achieving success with conversational AI requires more than just deploying a chatbot. To truly harness this technology, we must master the intricate dynamics of human-AI interaction. This involves understanding how users articulate needs, explore results, and refine queries, paving the way for a seamless and effective search experience.

This article will decode the three phases of conversational search, the challenges users face at each stage, and the strategies and best practices AI agents can employ to enhance the experience.

The Three Phases Of Conversational Search

To analyze these complex interactions, Trippas et al. (2018) (PDF) proposed a framework that outlines three core phases in the conversational search process:

  1. Query formulation: Users express their information needs, often facing challenges in articulating them clearly.
  2. Search results exploration: Users navigate through presented results, seeking further information and refining their understanding.
  3. Query re-formulation: Users refine their search based on new insights, adapting their queries and exploring different avenues.

Building on this framework, Azzopardi et al. (2018) (PDF) identified five key user actions within these phases: reveal, inquire, navigate, interrupt, interrogate, and the corresponding agent actions — inquire, reveal, traverse, suggest, and explain.

In the following sections, I’ll break down each phase of the conversational search journey, delving into the actions users take and the corresponding strategies AI agents can employ, as identified by Azzopardi et al. (2018) (PDF). I’ll also share actionable tactics and real-world examples to guide the implementation of these strategies.

Phase 1: Query Formulation: The Art Of Articulation

In the initial phase of query formulation, users attempt to translate their needs into prompts. This process involves conscious disclosures — sharing details they believe are relevant — and unconscious non-disclosure — omitting information they may not deem important or struggle to articulate.

This process is fraught with challenges. As Jakob Nielsen aptly pointed out,

“Articulating ideas in written prose is hard. Most likely, half the population can’t do it. This is a usability problem for current prompt-based AI user interfaces.”

— Jakob Nielsen

This can manifest as:

  • Vague language: “I need help with my finances.”
    Budgeting? Investing? Debt management?
  • Missing details: “I need a new pair of shoes.”
    What type of shoes? For what purpose?
  • Limited vocabulary: Not knowing the right technical terms. “I think I have a sprain in my ankle.”
    The user might not know the difference between a sprain and a strain or the correct anatomical terms.

These challenges can lead to frustration for users and less relevant results from the AI agent.

AI Agent Strategies: Nudging Users Towards Better Input

To bridge the articulation gap, AI agents can employ three core strategies:

  1. Elicit: Proactively guide users to provide more information.
  2. Clarify: Seek to resolve ambiguities in the user’s query.
  3. Suggest: Offer alternative phrasing or search terms that better capture the user’s intent.

The key to effective query formulation is balancing elicitation and assumption. Overly aggressive questioning can frustrate users, and making too many assumptions can lead to inaccurate results.

For example,

User: “I need a new phone.”

AI: “What’s your budget? What features are important to you? What size screen do you prefer? What carrier do you use?...”

This rapid-fire questioning can overwhelm the user and make them feel like they're being interrogated. A more effective approach is to start with a few open-ended questions and gradually elicit more details based on the user’s responses.

As Azzopardi et al. (2018) (PDF) stated in the paper,

“There may be a trade-off between the efficiency of the conversation and the accuracy of the information needed as the agent has to decide between how important it is to clarify and how risky it is to infer or impute the underspecified or missing details.”

Implementation Tactics And Examples

  • Probing questions: Ask open-ended or clarifying questions to gather more details about the user’s needs. For example, Perplexity Pro uses probing questions to elicit more details about the user’s needs for gift recommendations.

For example, after clicking one of the initial prompts, “Create a personal webpage,” ChatGPT added another sentence, “Ask me 3 questions first on whatever you need to know,” to elicit more details from the user.

  • Interactive refinement: Utilize visual aids like sliders, checkboxes, or image carousels to help users specify their preferences without articulating everything in words. For example, Adobe Firefly’s side settings allow users to adjust their preferences.

  • Suggested prompts: Provide examples of more specific or detailed queries to help users refine their search terms. For example, Nelson Norman Group provides an interface that offers a suggested prompt to help users refine their initial query.

For example, after clicking one of the initial prompts in Gemini, “Generate a stunning, playful image,” more details are added in blue in the input.

  • Offering multiple interpretations: If the query is ambiguous, present several possible interpretations and let the user choose the most accurate one. For example, Gemini offers a list of gift suggestions for the query “gifts for my friend who loves music,” categorized by the recipient’s potential music interests to help the user pick the most relevant one.

Phase 2: Search Results Exploration: A Multifaceted Journey

Once the query is formed, the focus shifts to exploration. Users embark on a multifaceted journey through search results, seeking to understand their options and make informed decisions.

Two primary user actions mark this phase:

  1. Inquire: Users actively seek more information, asking for details, comparisons, summaries, or related options.
  2. Navigate: Users navigate the presented information, browse through lists, revisit previous options, or request additional results. This involves scrolling, clicking, and using voice commands like “next” or “previous.”

AI Agent Strategies: Facilitating Exploration And Discovery

To guide users through the vast landscape of information, AI agents can employ these strategies:

  1. Reveal: Present information that caters to diverse user needs and preferences.
  2. Traverse: Guide the user through the information landscape, providing intuitive navigation and responding to their evolving interests.

During discovery, it’s vital to avoid information overload, which can overwhelm users and hinder their decision-making. For example,

User: “I’m looking for a place to stay in Tokyo.”

AI: Provides a lengthy list of hotels without any organization or filtering options.

Instead, AI agents should offer the most relevant results and allow users to filter or sort them based on their needs. This might include presenting a few top recommendations based on ratings or popularity, with options to refine the search by price range, location, amenities, and so on.

Additionally, AI agents should understand natural language navigation. For example, if a user asks, “Tell me more about the second hotel,” the AI should provide additional details about that specific option without requiring the user to rephrase their query. This level of understanding is crucial for flexible navigation and a seamless user experience.

Implementation Tactics And Examples

  • Diverse formats: Offer results in various formats (lists, summaries, comparisons, images, videos) and allow users to specify their preferences. For example, Gemini presents a summarized format of hotel information, including a photo, price, rating, star rating, category, and brief description to allow the user to evaluate options quickly for the prompt “I’m looking for a place to stay in Paris.”

  • Context-aware navigation: Maintain conversational context, remember user preferences, and provide relevant navigation options. For example, following the previous example prompt, Gemini reminds users of the potential next steps at the end of the response.

  • Interactive exploration: Use carousels, clickable images, filter options, and other interactive elements to enhance the exploration experience. For example, Perplexity offers a carousel of images related to “a vegetarian diet” and other interactive elements like “Watch Videos” and “Generate Image” buttons to enhance exploration and discovery.

  • Multiple responses: Present several variations of a response. For example, users can see multiple draft responses to the same query by clicking the “Show drafts” button in Gemini.

  • Flexible text length and tone. Enable users to customize the length and tone of AI-generated responses to better suit their preferences. For example, Gemini provides multiple options for welcome messages, offering varying lengths, tones, and degrees of formality.

Phase 3: Query Re-formulation: Adapting To Evolving Needs

As users interact with results, their understanding deepens, and their initial query might not fully capture their evolving needs. During query re-formulation, users refine their search based on exploration and new insights, often involving interrupting and interrogating. Query re-formulation empowers users to course-correct and refine their search.

  • Interrupt: Users might pause the conversation to:
    • Correct: “Actually, I meant a desktop computer, not a laptop.”
    • Add information: “I also need it to be good for video editing.”
    • Change direction: “I’m not interested in those options. Show me something else.”
  • Interrogate: Users challenge the AI to ensure it understands their needs and justify its recommendations:
    • Seek understanding: “What do you mean by ‘good battery life’?”
    • Request explanations: “Why are you recommending this particular model?”

AI Agent Strategies: Adapting And Explaining

To navigate the query re-formulation phase effectively, AI agents need to be responsive, transparent, and proactive. Two core strategies for AI agents:

  1. Suggest: Proactively offer alternative directions or options to guide the user towards a more satisfying outcome.
  2. Explain: Provide clear and concise explanations for recommendations and actions to foster transparency and build trust.

AI agents should balance suggestions with relevance and explain why certain options are suggested while avoiding overwhelming them with unrelated suggestions that increase conversational effort. A bad example would be the following:

User: “I want to visit Italian restaurants in New York.”

AI: Suggest unrelated options, like Mexican restaurants or American restaurants, when the user is interested in Italian cuisine.

This could frustrate the user and reduce trust in the AI.

A better answer could be, “I found these highly-rated Italian restaurants. Would you like to see more options based on different price ranges?” This ensures users understand the reasons behind recommendations, enhancing their satisfaction and trust in the AI's guidance.

Implementation Tactics And Examples

  • Transparent system process: Show the steps involved in generating a response. For example, Perplexity Pro outlines the search process step by step to fulfill the user’s request.

  • Explainable recommendations: Clearly state the reasons behind specific recommendations, referencing user preferences, historical data, or external knowledge. For example, ChatGPT includes recommended reasons for each listed book in response to the question “books for UX designers.”

  • Source reference: Enhance the answer with source references to strengthen the evidence supporting the conclusion. For example, Perplexity presents source references to support the answer.

  • Point-to-select: Users should be able to directly select specific elements or locations within the dialogue for further interaction rather than having to describe them verbally. For example, users can select part of an answer and ask a follow-up in Perplexity.

  • Proactive recommendations: Suggest related or complementary items based on the user’s current selections. For example, Perplexity offers a list of related questions to guide the user’s exploration of “a vegetarian diet.”

Overcoming LLM Shortcomings

While the strategies discussed above can significantly improve the conversational search experience, LLMs still have inherent limitations that can hinder their intuitiveness. These include the following:

  • Hallucinations: Generating false or nonsensical information.
  • Lack of common sense: Difficulty understanding queries that require world knowledge or reasoning.
  • Sensitivity to input phrasing: Producing different responses to slightly rephrased queries.
  • Verbosity: Providing overly lengthy or irrelevant information.
  • Bias: Reflecting biases present in the training data.

To create truly effective and user-centric conversational AI, it’s crucial to address these limitations and make interactions more intuitive. Here are some key strategies:

  • Incorporate structured knowledge
    Integrating external knowledge bases or databases can ground the LLM’s responses in facts, reducing hallucinations and improving accuracy.
  • Fine-tuning
    Training the LLM on domain-specific data enhances its understanding of particular topics and helps mitigate bias.
  • Intuitive feedback mechanisms
    Allow users to easily highlight and correct inaccuracies or provide feedback directly within the conversation. This could involve clickable elements to flag problematic responses or a “this is incorrect” button that prompts the AI to reconsider its output.
  • Natural language error correction
    Develop AI agents capable of understanding and responding to natural language corrections. For example, if a user says, “No, I meant X,” the AI should be able to interpret this as a correction and adjust its response accordingly.
  • Adaptive learning
    Implement machine learning algorithms that allow the AI to learn from user interactions and improve its performance over time. This could involve recognizing patterns in user corrections, identifying common misunderstandings, and adjusting behavior to minimize future errors.
Training AI Agents For Enhanced User Satisfaction

Understanding and evaluating user satisfaction is fundamental to building effective conversational AI agents. However, directly measuring user satisfaction in the open-domain search context can be challenging, as Zhumin Chu et al. (2022) highlighted. Traditionally, metrics like session abandonment rates or task completion were used as proxies, but these don’t fully capture the nuances of user experience.

To address this, Clemencia Siro et al. (2023) offer a comprehensive approach to gathering and leveraging user feedback:

  • Identify key dialogue aspects
    To truly understand user satisfaction, we need to look beyond simple metrics like “thumbs up” or “thumbs down.” Consider evaluating aspects like relevance, interestingness, understanding, task completion, interest arousal, and efficiency. This multi-faceted approach provides a more nuanced picture of the user’s experience.
  • Collect multi-level feedback
    Gather feedback at both the turn level (each question-answer pair) and the dialogue level (the overall conversation). This granular approach pinpoints specific areas for improvement, both in individual responses and the overall flow of the conversation.
  • Recognize individual differences
    Understand that the concept of satisfaction varies per user. Avoid assuming all users perceive satisfaction similarly.
  • Prioritize relevance
    While all aspects are important, relevance (at the turn level) and understanding (at both the turn and session level) have been identified as key drivers of user satisfaction. Focus on improving the AI agent’s ability to provide relevant and accurate responses that demonstrate a clear understanding of the user’s intent.

Additionally, consider these practical tips for incorporating user satisfaction feedback into the AI agent’s training process:

  • Iterate on prompts
    Use user feedback to refine the prompts to elicit information and guide the conversation.
  • Refine response generation
    Leverage feedback to improve the relevance and quality of the AI agent’s responses.
  • Personalize the experience
    Tailor the conversation to individual users based on their preferences and feedback.
  • Continuously monitor and improve
    Regularly collect and analyze user feedback to identify areas for improvement and iterate on the AI agent’s design and functionality.
The Future Of Conversational Search: Beyond The Horizon

The evolution of conversational search is far from over. As AI technologies continue to advance, we can anticipate exciting developments:

  • Multi-modal interactions
    Conversational search will move beyond text, incorporating voice, images, and video to create more immersive and intuitive experiences.
  • Personalized recommendations
    AI agents will become more adept at tailoring search results to individual users, considering their past interactions, preferences, and context. This could involve suggesting restaurants based on dietary restrictions or recommending movies based on previously watched titles.
  • Proactive assistance
    Conversational search systems will anticipate user needs and proactively offer information or suggestions. For instance, an AI travel agent might suggest packing tips or local customs based on a user’s upcoming trip.

When Friction Is A Good Thing: Designing Sustainable E-Commerce Experiences

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As lavish influencer lifestyles, wealth flaunting, and hauls dominate social media feeds, we shouldn’t be surprised that excessive consumption has become the default way of living. We see closets filled to the brim with cheap, throw-away items and having the latest gadget arsenal as signifiers of an aspirational life.

Consumerism, however, is more than a cultural trend; it’s the backbone of our economic system. Companies eagerly drive excessive consumption as an increase in sales is directly connected to an increase in profit.

While we learned to accept this level of material consumption as normal, we need to be reminded of the massive environmental impact that comes along with it. As Yvon Chouinard, founder of Patagonia, writes in a New York Times article:

“Obsession with the latest tech gadgets drives open pit mining for precious minerals. Demand for rubber continues to decimate rainforests. Turning these and other raw materials into final products releases one-fifth of all carbon emissions.”

— Yvon Chouinard

In the paper, Scientists’ Warning on Affluence, a group of researchers concluded that reducing material consumption today is essential to avoid the worst of the looming climate change in the coming years. This need for lowering consumption is also reflected in the UN’s Sustainability goals, specifically Goal 17, “Ensuring sustainable consumption and production patterns”.

For a long time, design has been a tool for consumer engineering by for example, designing products with artificially limited useful life (planned obsolescence) to ensure continuous consumption. And if we want to understand specifically UX design’s role in influencing how much and what people buy, we have to take a deeper look at pushy online shopping experiences.

Design Shaping Shopping Habits: The Problem With Current E-commerce Design

Today, most online shopping experiences are designed with persuasion, gamification, nudging and even deception to get unsuspecting users to add more things to their basket.

There are “Hurry, only one item left in stock” type messages and countdown clocks that exploit well-known cognitive biases to nudge users to make impulse purchase decisions. As Michael Keenan explains,

“The scarcity bias says that humans place a higher value on items they believe to be rare and a lower value on things that seem abundant. Scarcity marketing harnesses this bias to make brands more desirable and increase product sales. Online stores use limited releases, flash sales, and countdown timers to induce FOMO — the fear of missing out — among shoppers.”

— Michael Keenan

To make buying things quick and effortless, we remove friction from the checkout process, for example, with the one-click-buy button. As practitioners of user-centered design, we might implement the button and say: thanks to this frictionless and easy checkout process, we improved the customer experience. Or did we just do a huge disservice to our users?

Gliding through the checkout process in seconds leaves no time for the user to ask, “Do I actually want this?” or “Do I have the money for this?”. Indeed, putting users on autopilot to make thoughtless decisions is the goal.

As a business.com article says: “Click to buy helps customers complete shopping within seconds and reduces the amount of time they have to reconsider their purchase.”

Amanda Mull writes from a user perspective about how it has become “too easy to buy stuff you don’t want”:

“The order took maybe 15 seconds. I selected my size and put the shoes in my cart, and my phone automatically filled in my login credentials and added my new credit card number. You can always return them, I thought to myself as I tapped the “Buy” button. [...] I had completed some version of the online checkout process a million times before, but I never could remember it being quite so spontaneous and thoughtless. If it’s going to be that easy all the time, I thought to myself, I’m cooked.”

— Amanda Mull

This quote also highlights that this thoughtless consumption is not only harmful to the environment but also to the very same user we say we center our design process around. The rising popularity of buy-now-pay-later services, credit card debt, and personal finance gurus to help “Overcoming Overspending” are indicators that people are spending more than they can afford, a huge source of stress for many.

The one-click-buy button is not about improving user experience but building an environment where users are “more likely to buy more and buy often.” If we care to put this bluntly, frictionless and persuasive e-commerce design is not user-centered but business-centered design.

While it is not unusual for design to be a tool to achieve business goals, we, designers, should be clear about who we are serving and at what cost with the power of design. To reckon with our impact, first, we have to understand the source of power we yield — the power asymmetry between the designer and the user.

Power Asymmetry Between User And Designer

Imagine a scale: on one end sits the designer and the user on the other. Now, let’s take an inventory of the sources of power each party has in their hands in an online shopping situation and see how the scale balances.

Designers

Designers are equipped with knowledge about psychology, biases, nudging, and persuasion techniques. If we don’t have the time to learn all that, we can reach for an out-of-the-box solution that uses those exact psychological and behavioral insights. For example, Nudgify, a Woocommerce integration, promises to help “you get more sales and reduce shopping cart abandonment by creating Urgency and removing Friction.”

Erika Hall puts it this way: “When you are designing, you are making choices on behalf of other people.” We even have a word for this: choice architecture. Choice architecture refers to the deliberate crafting of decision-making environments. By subtly shaping how options are presented, choice architecture influences individual decision-making, often without their explicit awareness.

On top of this, we also collect funnel metrics, behavioral data, and A/B test things to make sure our designs work as intended. In other words, we control the environment where the user is going to make decisions, and we are knowledgeable about how to tweak it in a way to encourage the decisions we want the user to make. Or, as Vitaly Friedman says in one of his articles:

“We’ve learned how to craft truly beautiful interfaces and well-orchestrated interactions. And we’ve also learned how to encourage action to meet the project’s requirements and drive business metrics. In fact, we can make pretty much anything work, really.”

— Vitaly Friedman

User

On the other end of the scale, we have the user who is usually unaware of our persuasion efforts, oblivious about their own biases, let alone understanding when and how those are triggered.

Luckily, regulation around Deceptive Design on e-commerce is increasing. For example, companies are not allowed to use fake countdown timers. However, these regulations are not universal, and enforcement is lax, so often users are still not protected by law against pushy shopping experiences.

After this overview, let’s see how the scale balances:

When we understand this power asymmetry between designer and user, we need to ask ourselves:

  • What do I use my power for?
  • What kind of “real life” user behavior am I designing for?
  • What is the impact of the users’ behavior resulting from my design?

If we look at e-commerce design today, more often than not, the unfortunate answer is mindless and excessive consumption.

This needs to change. We need to use the power of design to encourage sustainable user behavior and thus move us toward a sustainable future.

What Is Sustainable E-commerce?

The discussion about sustainable e-commerce usually revolves around recyclable packaging, green delivery, and making the site energy-efficient with sustainable UX. All these actions and angles are important and should be part of our design process, but can we build a truly sustainable e-commerce if we are still encouraging unsustainable user behavior by design?

To achieve truly sustainable e-commerce, designers must shift from encouraging impulse purchases to supporting thoughtful decisions. Instead of using persuasion, gamification, and deception to boost sales, we should use our design skills to provide users with the time, space, and information they need to make mindful purchase decisions. I call this approach Kind Commerce.

But The Business?!

While the intent of designing Kind Commerce is noble, we have a bitter reality to deal with: we live and work in an economic system based on perpetual growth. We are often measured on achieving KPIs like “increased conversion” or “reduced cart abandonment rate”. We are expected to use UX to achieve aggressive sales goals, and often, we are not in a position to change that.

It is a frustrating situation to be in because we can argue that the system needs to change, so it is possible for UXers to move away from persuasive e-commerce design. However, system change won’t happen unless we push for it. A catch-22 situation. So, what are the things we could do today?

  • Pitch Kind Commerce as a way to build strong customer relationships that will have higher lifetime value than the quick buck we would make with persuasive tricks.
  • Highlight reduced costs. As Vitaly writes, using deceptive design can be costly for the company:
“Add to basket” is beautifully highlighted in green, indicating a way forward, with insurance added in automatically. That’s a clear dark pattern, of course. The design, however, is likely to drive business KPIs, i.e., increase a spend per customer. But it will also generate a wrong purchase. The implications of it for businesses might be severe and irreversible — with plenty of complaints, customer support inquiries, and high costs of processing returns.”

— Vitaly Friedman

Helping users find the right products and make decisions they won’t regret can help the company save all the resources they would need to spend on dealing with complaints and returns. On top of this, the company can save millions of dollars by avoiding lawsuits for unfair commercial practices.

  • Highlight the increasing customer demand for sustainable companies.
  • If you feel that your company is not open to change practices and you are frustrated about the dissonance between your day job and values, consider looking for a position where you can support a company or a cause that aligns with your values.
A Few Principles To Design Mindful E-commerce

Add Friction

I know, I know, it sounds like an insane proposition in a profession obsessed with eliminating friction, but hear me out. Instead of “helping” users glide through the checkout process with one-click buy buttons, adding a step to review their order and give them a pause could help reduce unnecessary purchases. A positive reframing for this technique could be helpful to express our true intentions.

Instead of saying “adding friction,” we could say “adding a protective step”. Another example of “adding a protective step” could be getting rid of the “Quick Add” buttons and making users go to the product page to take a look at what they are going to buy. For example, Organic Basics doesn’t have a “Quick Add” button; users can only add things to their cart from the product page.

Inform

Once we make sure users will visit product pages, we can help them make more informed decisions. We can be transparent about the social and environmental impact of an item or provide guidelines on how to care for the product to last a long time.

For example, Asket has a section called “Lifecycle” where they highlight how to care for, repair and recycle their products. There is also a “Full Transparency” section to inform about the cost and impact of the garment.

Design Calm Pages

Aggressive landing pages where everything is moving, blinking, modals popping up, 10 different discounts are presented are overwhelming, confusing and distracting, a fertile environment for impulse decisions.

Respect your user’s attention by designing pages that don’t raise their blood pressure to 180 the second they open them. No modals automatically popping up, no flashing carousels, and no discount dumping. Aim for static banners and display offers in a clear and transparent way. For example, H&M shows only one banner highlighting a discount on their landing page, and that’s it. If a fast fashion brand like H&M can design calm pages, there is no excuse why others couldn’t.

Be Honest In Your Messaging

Fake urgency and social proof can not only get you fined for millions of dollars but also can turn users away. So simply do not add urgency messages and countdown clocks where there is no real deadline behind an offer. Don’t use fake social proof messages. Don’t say something has a limited supply when it doesn’t.

I would even take this a step further and recommend using persuasion sparingly, even if they are honest. Instead of overloading the product page with every possible persuasion method (urgency, social proof, incentive, assuming they are all honest), choose one yet impactful persuasion point.

Disclaimer

To make it clear, I’m not advocating for designing bad or cumbersome user experiences to obstruct customers from buying things. Of course, I want a delightful and easy way to buy things we need.

I’m also well aware that design is never neutral. We need to present options and arrange user flows, and whichever way we choose to do that will influence user decisions and actions.

What I’m advocating for is at least putting the user back in the center of our design process. We read earlier that users think it is “too easy to buy things you don’t need” and feel that the current state of e-commerce design is contributing to their excessive spending. Understanding this and calling ourselves user-centered, we ought to change our approach significantly.

On top of this, I’m advocating for expanding our perspective to consider the wider environmental and social impact of our designs and align our work with the move toward a sustainable future.

Mindful Consumption Beyond E-commerce Design

E-commerce design is a practical example of how design is a part of encouraging excessive, unnecessary consumption today. In this article, we looked at what we can do on this practical level to help our users shop more mindfully. However, transforming online shopping experiences is only a part of a bigger mission: moving away from a culture where excessive consumption is the aspiration for customers and the ultimate goal of companies.

As Cliff Kuang says in his article,

“The designers of the coming era need to think of themselves as inventing a new way of living that doesn’t privilege consumption as the only expression of cultural value. At the very least, we need to start framing consumption differently.”

— Cliff Kuang

Or, as Manuel Lima puts in his book, The New Designer,

“We need the design to refocus its attention where it is needed — not in creating things that harm the environment for hundreds of years or in selling things we don’t need in a continuous push down the sales funnel but, instead, in helping people and the planet solve real problems. [...] Designs’s ultimate project is to reimagine how we produce, deliver, consume products, physical or digital, to rethink the existing business models.”

— Manuel Lima

So buckle up, designers, we have work to do!

To Sum It Up

Today, design is part of the problem of encouraging and facilitating excessive consumption through persuasive e-commerce design and through designing for companies with linear and exploitative business models. For a liveable future, we need to change this. On a tactical level, we need to start advocating and designing mindful shopping experiences, and on a strategic level, we need to use our knowledge and skills to elevate sustainable businesses.

I’m not saying that it is going to be an easy or quick transition, but the best time to start is now. In a dire state of need for sustainable transformation, designers with power and agency can’t stay silent or continue proliferating the problem.

“As designers, we need to see ourselves as gatekeepers of what we are bringing into the world and what we choose not to bring into the world. Design is a craft with responsibility. The responsibility to help create a better world for all.”

— Mike Monteiro

This Is How SSL Certificates Work: HTTPS Explained in 15 Minutes

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The world of online security may seem complex, but understanding the basics of how SSL certificates work and why HTTPS is essential can empower you to make safer choices online. Just like Jane, you can navigate the digital landscape with confidence, knowing that your data is protected from prying eyes. So next time you browse the web, remember the story of Jane and the coffee shop hacker and choose secure, trusted websites for your online activities. Let’s start our day with Jane who was enjoying her coffee peacefully.

Chapter 1: The Coffee Shop Conundrum

It was a sunny afternoon, and Jane decided to take a break from her hectic day. She headed to her favorite coffee shop, ordered a latte, and found a cozy corner to catch up on some online shopping and emails. As she settled in, she connected her laptop to the coffee shop’s free Wi-Fi and began browsing. Little did she know, a hacker named Bob was sitting just a few tables away, eager to intercept her data.

Chris’ Corner: Incremental Adoption

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One of the reasons I can’t stop thinking about native Web Components is how you can use them anywhere. “Incremental adoption” is the fancy phrase, I suppose.

We’ve even started using them on the new editor for CodePen we’re still hard at work on to solve some interesting issues I’m sure we’ll talk about someday. We’re using React/Next there, which isn’t famous for it’s support of Web Components, but it’s mostly been fine. Other JavaScript frameworks are much more friendly, and of course if you aren’t using a JavaScript framework you haven’t a care in the world; Web Components can be part of your world.

Because they are pretty easy to slip in anywhere, they work pretty well on CodePen. I mentioned a list of “stand alone” Web Components the other week here at the ol’ Corner, then I converted them into Pens just to prove that. A lot of web components are published to npm to using a site like esm.sh makes linking up the resources pretty easy.

What’s cool about using web components like I have above is that they just might last forever. I ranted a little about this on Mastodon the other day. The fewer dependencies a web component has, the longer it will last. It will certainly outlive your JavaScript framework, as Jake Lazaroff put it:

If we want our work to be accessible in five or ten or even 20 years, we need to use the web with no layers in between. For all its warts, the web has become the most resilient, portable, future-proof computing platform we’ve ever created — at least, if we build with that in mind.

I think that’s cool.

I makes me think what will break about those demos I posted. Like, what is going to make this Pen stop working someday? If CodePen goes offline, it will. But we’ve just had our 12th birthday are are going strong. You’d have to fight me to the death for that to happen. The web component is linked up from esm.sh so if that went down it would stop working. That’s definitely possible, we’ve seen free CDN-like websites like this come and go. But you could just change to a different one. The code is on npm, so that could die or the author could pull it down. But there doesn’t seem to be a lot of risk of that, and it’s open source so mirrors will exist. Pretty resilient, I’d say! Although different projects have different needs there and you could always get stronger by reducing even those dependencies.

Oh hey speaking of web components and things that are super cool… check out David Darnes new one just for us: <code-pen>.

The idea is that it’s a convienient way to use our Post to Prefill API. So you’d author code like this:

<script type="module" src="code-pen.js"></script>

<code-pen>
  <pre>
    <code>&lt;p&gt;Hello world&lt;/p&gt;</code>
  </pre>
  <pre>
    <code>:root { color: hotpink; }</code>
  </pre>
  <pre>
    <code>document.querySelector(&quot;p&quot;).style.backgroundColor = &quot;orange&quot;;</code>
  </pre>
</code-pen>

(Or you could use Markdown triple backticks and avoid the code escaping, among other options)

Then it builds an “Open in CodePen” button that users can click to open that code in a real Pen. The point is usually stuff like documentation and blog posts where you want to manage all the code yourself, not maintain both the text and the Pens separately. Thanks David, this is super cool.

David also recently published a free eBook called The Case for Web Components you might want to check out if you’re looking to be further convinced or need more learnings on the basic to decide. In it, he mentioned the use case of “design systems”, which seems like an awful big one to me. These days, if you’re creating a design system, doing it in anything other than web components seems weird. Web components will last and be movable between frameworks as your project evolves, with little if any downside.

While we’re on the subject let’s just get a little more into the weeds.

Ultimately a Web Component is a class in JavaScript. It has standard methods, like a constructor that is called when the class is instantiated. It also has a method connectedCallback that runs when on each instance of a web component when it shows up in the DOM. This is a bit of a subtle difference and can be quite a gotcha, as Nolan Lawson says. If your component needs to do stuff that might be unique to each instance, that belongs in connectedCallback. I think it’s a real superpower of web components! For example, it’s kinda like getting event delegation for free.

There is an approach to web components called HTML web components which is essentially:

  1. Take some perfectly acceptable HTML
  2. Wrap it in a <web-component> to extend the functionality

That’s fun and obviously useful (e.g. a blog post with a web component would render fine over RSS). It’s related but not quite the same declarative shadow DOM. Raymond Camden explores something interesting here… how does a web component know if the HTML inside it changes? Unfortunately there is no obvious solution or helper API for this… other than the platform itself. The trick is that you use a MutationObserver on itself internally to watch for changes and then do whatever you gotta do. Interesting stuff. I’d be tempted to rip the whole thing out of the DOM and replace it just so connectedCallback does it’s thing, rather than craft every web component such that it’s watching for it’s own changes.

I hadn’t really thought that much about watching for changes like that before, as it just hasn’t come up for me. Similarly, Ben Nadel points out that the contents of a <template> can be mutated at any time, and new components instantiated off it will use that new content. That makes sense to me, it’s just a twist of how I normally think of components. I think of the template as this static thing which takes data and does what it needs to do. Less so do I think of a template itself that is dynamic based on data.

Useful Customer Journey Maps (+ Figma & Miro Templates)

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User journey maps are a remarkably effective way to visualize the user’s experience for the entire team. Instead of pointing to documents scattered across remote fringes of Sharepoint, we bring key insights together — in one single place.

Let’s explore a couple of helpful customer journey templates to get started and how companies use them in practice.

This article is part of our ongoing series on UX. You might want to take a look at Smart Interface Design Patterns 🍣 and the upcoming live UX training as well. Use code BIRDIE to save 15% off.

AirBnB Customer Journey Blueprint

AirBnB Customer Journey Blueprint (also check Google Drive example) is a wonderful practical example of how to visualize the entire customer experience for two personas, across eight touch points, with user policies, UI screens and all interactions with the customer service — all on one single page.

Now, unlike AirBnB, your product might not need a mapping against user policies. However, it might need other lanes that would be more relevant for your team. For example, include relevant findings and recommendations from UX research. List key actions needed for the next stage. Include relevant UX metrics and unsuccessful touchpoints.

Whatever works for you, works for you — just make sure to avoid assumptions and refer to facts and insights from research.

Spotify Customer Journey Map

Spotify Customer Journey Blueprint (high resolution) breaks down customer experiences by distinct user profiles, and for each includes mobile and desktop views, pain points, thoughts, and actions. Also, notice branches for customers who skip authentication or admin tasks.

Getting Started With Journey Maps

To get started with user journey maps, we first choose a lens: Are we reflecting the current state or projecting a future state? Then, we choose a customer who experiences the journey — and we capture the situation/goals that they are focusing on.

Next, we list high-level actions users are going through. We start by defining the first and last stages and fill in between. Don’t get too granular: list key actions needed for the next stage. Add the user’s thoughts, feelings, sentiments, and emotional curves.

Eventually, add user’s key touchpoints with people, services, tools. Map user journey across mobile and desktop screens. Transfer insights from other research (e.g., customer support). Fill in stage after stage until the entire map is complete.

Then, identify pain points and highlight them with red dots. Add relevant jobs-to-be-done, metrics, channels if needed. Attach links to quotes, photos, videos, prototypes, Figma files. Finally, explore ideas and opportunities to address pain points.

Free Customer Journey Maps Templates (Miro, Figma)

You don’t have to reinvent the wheel from scratch. Below, you will find a few useful starter kits to get up and running fast. However, please make sure to customize these templates for your needs, as every product will require its own specific details, dependencies, and decisions.

Wrapping Up

Keep in mind that customer journeys are often non-linear, with unpredictable entry points and integrations way beyond the final stage of a customer journey map. It’s in those moments when things leave a perfect path that a product’s UX is actually stress-tested.

So consider mapping unsuccessful touchpoints as well — failures, error messages, conflicts, incompatibilities, warnings, connectivity issues, eventual lock-outs and frequent log-outs, authentication issues, outages, and urgent support inquiries.

Also, make sure to question assumptions and biases early. Once they live in your UX map, they grow roots — and it might not take long until they are seen as the foundation of everything, which can be remarkably difficult to challenge or question later. Good luck, everyone!

Meet Smart Interface Design Patterns

If you are interested in UX and design patterns, take a look at Smart Interface Design Patterns, our 10h-video course with 100s of practical examples from real-life projects — with a live UX training later this year. Everything from mega-dropdowns to complex enterprise tables — with 5 new segments added every year. Jump to a free preview. Use code BIRDIE to save 15% off.

Meet Smart Interface Design Patterns, our video course on interface design & UX.

100 design patterns & real-life examples.
10h-video course + live UX training. Free preview.

Best Free Shopify Templates That Will Elevate Your E-Commerce Store

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Kickstarting an e-commerce store can feel like trying to build a castle out of LEGO blocks without a manual. Whether you’re a seasoned entrepreneur or a novice, the journey is riddled with choices, among which selecting the right theme tops the list. Fear not, the world of Shopify is a goldmine brimming with dazzling yet completely free themes. They can make your store look like a million bucks, even if you’re still waiting for your first sale.

Think of free Shopify themes as your store’s virtual wardrobe – you wouldn’t dress your shop in pajamas, right? With countless options at your fingertips, it’s as if you have an online stylist at your service. These templates bring style and functionality without the hefty price tag. Plus, they’re an absolute cinch to install.

Ready to dive into the slick, stylish, and snazzy world of Shopify themes? Buckle up, because we’ve got the lowdown on the best free templates to make your site shine brighter than a disco ball at Studio 54.

Why do you need a custom Shopify theme?

Imagine walking into a grocery store where aisles twist like a labyrinth and bananas are shelved next to light bulbs. Chaos, right? That’s what a default Shopify theme can feel like. A custom theme transforms your store from that chaotic mess into a seamless shopping experience – think IKEA without the frustration.

It’s not just about looks, though you’ll definitely turn heads with a snazzy setup. A tailored theme aligns with your brand’s vibe, making customers feel right at home, like they’re visiting a favorite café. Plus, you get to flaunt unique features that can boost sales quicker than a cat video goes viral.

In the crowded market, standing out isn’t optional; it’s survival. So, treat your store like that Instagram-perfect coffee shop. The right theme sets the stage for delightful discoveries and ensures your customers keep coming back for more lattes – and purchases.

The Significance of a Quality Shopify Theme

Imagine your Shopify store as a superhero; its theme is the cape. A quality theme doesn’t just swoosh dramatically—it gets things done. Flashy looks? Absolutely. But more importantly, it makes shopping a breeze. Think of it as offering an all-access pass to your products without the annoying velvet ropes.

Why settle for a default when you can go deluxe? A high-caliber theme means faster load times. Shoppers are like goldfish—easily distracted. Keep ’em hooked with a snappy interface.

Responsiveness? That’s non-negotiable. Your theme needs to look sharp on any device, just like you in your LinkedIn profile pic. Don’t forget SEO-friendly designs. Your store should be a magnet for search engines, pulling in customers like free samples at Costco.

In short, a quality Shopify theme is your behind-the-scenes co-star, ensuring every visitor has an unforgettable, purchase-inducing experience.💰

How to pick the best Shopify theme for your store?

Ready to supercharge your Shopify store with an epic theme but overwhelmed by the sea of options? No sweat, you’re not alone. Start with your vibe. Are you selling high-end fashion or quirky handmade crafts? Your theme should scream your brand’s personality louder than a teenager at a concert.

Next, check the functionality. Test drive those demos like you’re at a car show. Look for features you need—sliders, product zooms, Instagram feeds—you name it.

Don’t forget mobile. Seriously, most people shop on their phones while doing everything else. Make sure your theme looks sleek on any screen size.

Reviews are your friends. If Sally from Iowa found it helpful, you might too. But take ’em with a pinch of salt; some folks are never satisfied.

Lastly, support. Free stuff is great until it breaks. Ensure there’s a helpful community or some support for those inevitable hiccups.

Follow these pointers and you’ll pick a theme that’s as fabulous as your products. 🕶️

Why free Shopify themes are a good option?

Sure, who doesn’t love free stuff? Free Shopify themes are like finding a $20 bill in your old jeans. They help you save some serious cash while offering a decent range of customization. Money saved on themes means more budget for killer marketing campaigns, right?

Plus, many free themes are backed by Shopify’s solid dev team. You won’t get stuck with some buggy afterthought of a theme. These templates are user-focused and often just as snazzy as their paid counterparts. They can give your store a polished look without squeezing your wallet dry.

If you’re just dipping your toes into the e-commerce ocean, free themes are a no-brainer. They let you experiment without financial commitment. And hey, if your store blows up overnight, you can always upgrade later. It’s all about working smart, not hard!

Tips for Choosing the Right Template   

Choosing the right Shopify theme isn’t rocket science, but a little insider wisdom never hurt anyone, right? First, think about your brand style. If your store is all about Gothic fashion, a pastel floral theme won’t do the trick.

Keep an eye on functionality— it’s like checking for the engine before buying a car. Does it support all your desired features? Integrated social media? A snazzy product slider? Check the reviews like you’re stalking an ex’s Facebook. See what other users say about it.

Make sure it looks good on mobile. Folks are more likely to shop while waiting in line for their coffee than sitting at a desktop. Test drive different themes with your actual content. Sometimes what looks like gold turns out to be glitter.

And finally, don’t stress too much. It’s okay to start simple and upgrade later. After all, even Rome wasn’t built on a premium template!

Conclusion

Ready to wrap this up? Free Shopify templates can be lifesavers for new store owners with a tight budget. Don’t worry; you won’t sacrifice style or functionality. Imagine these themes as your e-commerce Swiss Army knife: they’ve got it all, and they don’t cost a dime.

Remember, your site’s look is its first impression. Make it count! Test different free themes like you’re trying on outfits before a big date. Do they fit your brand? Are they responsive? If your theme doesn’t make your products shine, swipe left.

Stay flexible. If your first choice doesn’t attract customers, try another. After all, even astronauts do test runs!

So go ahead, dive into the pool of the best free Shopify templates. You might find the perfect one faster than you can say, “Shopify theme for free!” Your future self—and your sales—will thank you.

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Ride

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Craft

Craft

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Spotlight

Spotlight

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Taste

Taste

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Colorblock

Colorblock

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Publisher

Publisher

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Crave

Crave

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Studio

Studio

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Trade

Trade

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Fashe

Fashe

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Thalia

Thalia

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Vendy Shopping Store Theme

Vendy Shopping Store Theme

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Voonex

Voonex

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Cybersecurity path

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Does Anyone know how a beginner like me in tech can start learning cyber security or starting a career in cyber engineering?