๐ Custom Inputs Summary
Custom inputs are user interface elements that allow people to enter information or make choices in a way that is different from standard text boxes, checkboxes, or radio buttons. They are designed to fit specific needs or improve the way users interact with a website or app. Custom inputs can include things like sliders for picking a value, colour pickers, or specially styled switches.
๐๐ปโโ๏ธ Explain Custom Inputs Simply
Imagine filling in a form where, instead of a plain box to type your age, you use a slider to select it. Custom inputs are like swapping out boring tools for ones that are easier or more fun to use. They make digital forms feel more like using real-world objects, such as turning a light switch on or off.
๐ How Can it be used?
Custom inputs can help users select delivery times with a calendar picker in a booking app.
๐บ๏ธ Real World Examples
An online clothing shop uses a custom colour picker input, letting customers select the exact shade they want for a t-shirt, rather than choosing from a basic list of colours.
A budgeting app includes a custom slider input that lets users quickly set a savings goal amount, making it faster and more interactive than typing in a number.
โ FAQ
What are some examples of custom inputs on websites or apps?
Custom inputs can be things like sliders that let you pick a number smoothly, colour pickers for choosing your favourite shade, or switches that look like a light switch instead of a standard checkbox. These elements are made to be more engaging and can make selecting options much easier or more fun.
Why would someone use custom inputs instead of regular ones?
Custom inputs can make forms and settings more visually appealing and easier to use. They help people interact in ways that feel more natural or enjoyable, especially when choosing from a range of options or picking something specific like a time or colour.
Are custom inputs harder to use than standard ones?
Not necessarily. When designed well, custom inputs can be even more straightforward than standard ones. For example, a slider can make picking a number much quicker than typing it out, and a colour picker can help you see your choice instantly.
๐ Categories
๐ External Reference Links
Ready to Transform, and Optimise?
At EfficiencyAI, we donโt just understand technology โ we understand how it impacts real business operations. Our consultants have delivered global transformation programmes, run strategic workshops, and helped organisations improve processes, automate workflows, and drive measurable results.
Whether you're exploring AI, automation, or data strategy, we bring the experience to guide you from challenge to solution.
Letโs talk about whatโs next for your organisation.
๐กOther Useful Knowledge Cards
Bias Mitigation
Bias mitigation refers to the methods and strategies used to reduce unfairness or prejudice within data, algorithms, or decision-making processes. It aims to ensure that outcomes are not skewed against particular groups or individuals. By identifying and addressing sources of bias, bias mitigation helps create more equitable and trustworthy systems.
Quantum Model Efficiency
Quantum model efficiency refers to how effectively a quantum computing model uses its resources, such as qubits and computational steps, to solve a problem. It measures how much faster or more accurately a quantum system can perform a task compared to traditional computers. Improving quantum model efficiency is important to make quantum computing practical and to handle larger, more complex problems.
Neural Pattern Recognition
Neural pattern recognition is a technique where artificial neural networks are trained to identify patterns in data, such as images, sounds or sequences. This process involves feeding large amounts of data to the network, which then learns to recognise specific features and make predictions or classifications based on what it has seen before. It is widely used in areas like image recognition, speech processing and medical diagnosis.
Version Labels
Version labels are identifiers used to mark specific versions of files, software, or documents. They help track changes over time and make it easy to refer back to previous versions. Version labels often use numbers, letters, or a combination to indicate updates, improvements, or corrections.
Model Versioning Strategy
A model versioning strategy is a method for tracking and managing different versions of machine learning models as they are developed, tested, and deployed. It helps teams keep organised records of changes, improvements, or fixes made to each model version. This approach prevents confusion, supports collaboration, and allows teams to revert to previous versions if something goes wrong.