Difference between revisions of "CLIO Documentation"
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===Understanding the Look Closer Content System=== | ===Understanding the Look Closer Content System=== | ||
{{Main|Understanding the CLIO Look Closer Content System}} | {{Main|Understanding the CLIO Look Closer Content System}} | ||
The Look Closer Content System is a CLIO feature that can be used while creating new interactive activity types. When called through a JavaScript event, this system creates full-screen Look Closer pop-ups with scrollable rich text, image galleries and video playback. This features is meant to add depth and interactivity to the exploration of information. | |||
===Understanding the Rich Text Markup System=== | ===Understanding the Rich Text Markup System=== | ||
{{Main|Understanding the CLIO Rich Text Markup System}} | {{Main|Understanding the CLIO Rich Text Markup System}} | ||
Paragraph and text formatting is stored using a lightweight markup language, closely based on the BBCode tag system. This allows formatting information, such as bold, italic and underlined text, to be stored within a plain text format like JSON. For example, storing “[b]Example[/b]” within a configuration file would cause the interface to render everything between the “[b]” and “[/b]” tags as bold, i.e. '''Example'''. | |||
===Controlling Hardware=== | ===Controlling Hardware=== | ||
{{Main|Controlling External Hardware with CLIO}} | {{Main|Controlling External Hardware with CLIO}} | ||
While running a web server locally on the hardware that is powering the CLIO exhibit, it is possible to control the hardware through the web application interface. This should only be done when the web server is running on a kiosk that otherwise has no access to the internet. Hardware control can be achieved through a combination of JavaScript, PHP and Python scripting. By using JavaScript and AJAX/AJAJ, we can asynchronously call a PHP script as part of an event or the initialization script of an activity type. When this PHP script is called, it is used to run terminal commands or initialize a Python script stored locally on the hardware. PHP and Python can be used to manipulate Raspberry Pi hardware, execute console commands or run prepared code to control lights, speakers or other electronics attached to a Raspberry Pi GPIO port. | |||
==Contribute== | ==Contribute== | ||
{{Main|Contributing to CLIO}} | {{Main|Contributing to CLIO}} | ||
If you want to help contribute to CLIO, you've come to the right place. This is where we are trying to keep a living document based on CLIO and the way open-source technologies intersect with museums, libraries and cultural heritage centers. Sponsor us, add terms, update definitions, or provide language translations. Every little thing helps us to create a vibrant and open community geared towards one thing: equal access to technology, for everyone. |
Revision as of 15:03, 13 April 2022
Overview
Requirements
CLIO runs on hardware with very minimal specifications, including outdated systems and single-board computers like the Raspberry Pi. Software requirements are an HTML web server with PHP 6.0+. A web browser, such as Mozilla Firefox or Google Chromium, are required to view CLIO.
Creating a Local Development Environment
CLIO is a web-based application, which means that it needs to be developed on your local machine using a web development environment. Many forms of code development happen in an Integrated Development Environment (IDE) designed to work with a specific coding language, but web development takes a slightly different approach.
For web development, we instead use a Local Web Development Environment (LWDE). These perform very similarly to an on-line web server, like the ones the power the World Wide Web. The difference is that this web server is constrained to your local computer and – if configured properly – your local network, meaning that only you and those given access can view or edit content on your Local Web Development Environment.
There are many free and open-source Local Web Development Environments available, which combine all of the required software and configurations required to quickly create a local web server with all of the required tools.
Installation
CLIO needs to be installed on the Local Web Development Environment. There is no setup process for databases, meaning that the CLIO web application files can be dragged directly to the applicable web server folder and access without installation. Different Operating Systems, as well as different software packages, have different locations for their hosted content.
Accessing CLIO
Once CLIO has been installed on your web server, you can access it through your web browser of choice by navigating to http://localhost/.
Creating an Interactive Exhibit
Creating an Interactive
An Interactive refers to single instance of a digital interactive experience, such as an individual kiosk or web exhibition. Interactives can contain multiple Programs, allowing them to be used in different exhibitions even while away from your institution. Interactives can also have device-specific settings, such as kiosk screen brightness and Facilitator PIN codes.
Creating a Program
A Program is a selection of Activities within the same group, exhibit or educational program. Programs can be used to group Activities for pop-up exhibition tables, rooms, galleries, or just by subject. This allows facilitators to run multiple unrelated pop-up exhibits and programs using the same hardware, without having to connect to the internet or download additional data. Programs are provided as a way to create manageable collections of interactive activities that can be customized based on your institutions needs.
Defining Audiences
Each Program can have custom audiences groups, which are included as a way to help sort activities for predefined demographics. When setting up the kiosk as part of their pop-up exhibit, facilitators have the power to configure which activities they think would best fit their audience and what they’re trying to achieve. As an example, this allows you to create three Slideshow activities about the same topic, but tailor each one for a different audience; one for younger learners, one for middle school children, and one for community audiences where you can expect adults are available to help explain more complex topics.
Adding Multimedia
Each Program contains its own directory to store media, which allows multiple activities within a Program to utilize the same multimedia assets.
Creating an Activity
Activities are created through easily customizable activity templates, called Activity Types. You can make your own, or utilize the ones that are provided. The CLIO web application suite comes pre-installed with seventeen Activity Types that are designed specifically for use in an informal education or exhibit context. These activities are coded and stored as JSON files for use within CLIO, but we provide word processor templates to assist with collaboration during the development and drafting process.
Configuring Facilitator Information
When used as a kiosk for pop-up events, the Facilitation menu can provides facilitators with quick references, such as program information, goals, objectives, and instructions.
Configuring Facilitator Discussions
Facilitator Discussions provide curated topics that can be used to prompt a conversation or answer a question from a participant.
Updating CLIO Exhibit Content
Once you have created an interactive on your Local Web Development Environment, it will need to be installed onto a kiosk or live web server.
Integrating CLIO Content into Your Institution
Creating a Kiosk
You can use free and open-source software, alongside commodity or outdated hardware, to create an interactive kiosk to display within your institution.
Using CLIO in Broadcasting and Recording Software
You can use Open Broadcaster Software to integrate CLIO and its activities into a video conference, live stream or pre-recorded videos that you can share online.
Using CLIO on a Blog
When you host CLIO on a publicly accessible web server, it can be embedded directly into websites and blogging platforms, such as Wordpress.
Interaction Modes
Facilitator Mode
This graphical user interface provides an environment where program facilitators can select the Activities they would like to view as a part of their exhibit. They can preview Activities in Activity Mode, view information about its suggested Audience, or change interface settings (such as Contrast Modes, or Themes). After they have selected the desired activities, they can put the interface into Interactive Mode.
Exhibit Mode
This graphical user interface displays a collection of Activities for visitors to navigate.
Activity Mode
This graphical user interface displays an Activity. Users have access to a collection of accessibility features.
Look and Feel
Adding Custom CSS to an Interactive
Custom CSS can be applied to an entire instance of CLIO Exhibit, which allows custom theming on a device-by-device or site-by-site basis.
Adding Custom CSS to a Program
Each Program can have custom CSS that allows the interface to be branded more specifically to the aesthetics of your exhibit.
Creating Activity Themes
Each Activity can have a configured theme that allows each activity's aesthetic to vary slightly from the primary interface.
Adding a Custom Web Font
CLIO can be configured to use custom web fonts to match your institutions branding. You can add fonts that are accessible to every Program in CLIO, or make certain fonts only available to certain Programs.
Important IDs and Classes
These are the classes and IDs that CLIO uses to create the interface, which can be used to create themes that match your style guidelines.
Using Design Assets
CLIO uses Google's Material.io Sharp icon set and several custom web fonts that can be utilized in your development.
Development
Creating an Activity Type
All Activity Types are created using JavaScript. They are defined as a single function designed to load content from the configuration file and use it to set up the activity. Each Activity Type will automatically load an HTML template into the container and apply a stylesheet to the page. Using JavaScript or jQuery events, you can manipulate these containers and styles.
Using Integrated Libraries
There are a collection of JavaScript libraries that are already integrated into CLIO that can be used in new Activity Types without needing to install them.
Using CLIO Functions
There are several functions that have been created for use in the interface or other activity types that were included as part of the CLIO web application, making it so they can be integrated into new activity types.
Integrating a JavaScript Library
When designing an Activity Type, new JavaScript libraries can be integrated into CLIO so you can use all the library's features
Framework
Understanding the URL Scheme
The CLIO web application uses a URL query-based system to load the interface dynamically based on parameters in the URL. By manipulating these parameters, we can change how the web application will appear when loaded. This can be thought of similarly to the way options are passed into a programming function. When the CLIO is loaded without any parameters, it will default to the full “Facilitator Mode” experience.
Understanding the 'content' Folder
All of the data used by Interactives, Programs and Activities are stored as flat files within the 'content' directory at the root of the web application. When CLIO is loaded, it will search this directory for available Programs. This is because CLIO does not use a database server to store activity configurations.
Understanding an Activity Configuration File
Every Activity, even ones with different Activity Types, use the same configuration file structure. This allows the CLIO web application to configure the interface, identify the appropriate activity type and pass is the content used for setup.
Understanding the Look Closer Content System
The Look Closer Content System is a CLIO feature that can be used while creating new interactive activity types. When called through a JavaScript event, this system creates full-screen Look Closer pop-ups with scrollable rich text, image galleries and video playback. This features is meant to add depth and interactivity to the exploration of information.
Understanding the Rich Text Markup System
Paragraph and text formatting is stored using a lightweight markup language, closely based on the BBCode tag system. This allows formatting information, such as bold, italic and underlined text, to be stored within a plain text format like JSON. For example, storing “[b]Example[/b]” within a configuration file would cause the interface to render everything between the “[b]” and “[/b]” tags as bold, i.e. Example.
Controlling Hardware
While running a web server locally on the hardware that is powering the CLIO exhibit, it is possible to control the hardware through the web application interface. This should only be done when the web server is running on a kiosk that otherwise has no access to the internet. Hardware control can be achieved through a combination of JavaScript, PHP and Python scripting. By using JavaScript and AJAX/AJAJ, we can asynchronously call a PHP script as part of an event or the initialization script of an activity type. When this PHP script is called, it is used to run terminal commands or initialize a Python script stored locally on the hardware. PHP and Python can be used to manipulate Raspberry Pi hardware, execute console commands or run prepared code to control lights, speakers or other electronics attached to a Raspberry Pi GPIO port.
Contribute
If you want to help contribute to CLIO, you've come to the right place. This is where we are trying to keep a living document based on CLIO and the way open-source technologies intersect with museums, libraries and cultural heritage centers. Sponsor us, add terms, update definitions, or provide language translations. Every little thing helps us to create a vibrant and open community geared towards one thing: equal access to technology, for everyone.