Current archetype and template tools intended for clinical modelling do not support all new features in ADL 2.0 (previously called ADL 1.5). Some clinicians also have limited possibilities/permissions to install the current editing applications on their computers (hospital security rules etc). A more modular editing framework than the some of the current somewhat monolithic applications would also be desirable so that alternative implementations of parts/functions could be tested/used. The main mission of the currently starting project phase is to address these issues. After that initial phase, future development may further explore for example versioning and collaboration features.
The openEHR 2014 roadmap meeting agreed in principle on starting a community tooling project aiming to create an open source based web-accessible archetype and template editing framework/workbench capable of ADL 2.0. The meeting report http://www.openehr.org/news_events/2014-09-16_openehr_meeting_report states that:
A next generation archetype tooling project will be commenced.
A technical group will develop an outline architecture and project proposal in the next 3 weeks.
The project will be open source, and be open to use by developers from any organisation using archetypes.
Most end users (e.g. clinicians) should be able to use main parts of the tooling via modern web-browsers, without needing to install extra software locally. (Some functionality might require access server-based components though.)
We will aim for a combined project that covers the needs of openEHR, 13606, CIMI and any other archetype user community.
Some other (less edited) input from the Oslo meeting is available at http://www.openehr.org/wiki/display/oecom/September+2014+Roadmap+Meeting
UPDATE Feb, 2017: Marand pre-announces Angular2-based new version
Pre-announcment of Angularr2-based version https://twitter.com/marandlab/status/826832144672686081
(Today, 6 Feb 2017, the URL https://ehrscape.marand.si/designer/ seems to host a previous version. The version at https://github.com/openEHR/adl-designer is also a previous version)
UPDATE Aug 21, 2015:
Developer preview of web based archetype and template editors - RELEASED today at Medinfo2015 !!!
Please view theutl slides from the release announcement: https://goo.gl/7Cd52R
(Presented at the Medinfo 2015 openEHR developer workshop, Aug 21, in São Paulo, Brazil)
Link shortcuts:
Many thanks go to Marand for doing a huge amount of design, coding and testing!
UPDATE Oct 23, 2014:
Use cases and improvement suggestions compared to current tools
At present no more general-purpose online meetings are scheduled, but some of the clusters will likely have some informal meetings. By the end of November we should know more about where initial efforts have taken us and schedule a new general meeting.
The section "Actors/developers and their interests/contributions" on the wikipage has been updated based on meeting notes. If you are interested in joining the project, then define your main participation-interests for the project as a whole and suggest starting points where you would like to contribute initially. Those with limited time can of course monitor/review/comment work items as they evolve (instead of developing them), but then please tell us a bit about what items/subjects you want to focus your review efforts on.
UPDATE Oct 20, 2014:
We had a second meeting Tuesday October 21. Notes and chat available at http://www.openehr.org/wiki/x/DoAiAw The sections "Roadmap" and "Actors/developers and their interests/contributions" were updated as a result of the meeting.
UPDATE Oct 14, 2014:
Recording, chat transcript etc. from the first online meeting is now available, see: http://www.openehr.org/wiki/x/O4AYAw
Some major points from the first online meeting:
Erik Sundvall is responsible for arranging a first draft wikipage (this one) and an initial online meeting, but not necessarily the one coordinating the rest of the project. (An organization/person that can dedicate project leader time for some months would be welcome to volunteer.
A "doodle" where you can select time-preferences for 1-hour meetings is available at: http://doodle.com/gm456xavg3fcgvw5 (date alternatives ranging between Oct 14 to Oct 27) A first meeting is already finished. We might pick other times among these for followup meetings.
Based on the doodle above (read on october 16) the most likely follow-up meeting time could be October 21 and/or October 23, the time would be the same both dates, at 12:00-13:00 Swedish (lunch) time
Default meeting mechanism, if nothing else specified, very participant-scalable, but sometimes slightly lagging, Adobe Connect meeting room at https://connect.sunet.se/openEHR. Please try everything out before meetings so that you have audio (and possibly video) working properly. Ask a friend/colleague to log in to the room too and try talking to each other for a while. Use the audio setup wizard (see image below) to calibrate speaker/mic, it is somewhat hidden - you need to click the "meeting" button/meneu.
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Having a physical meeting was also suggested and that will hopefully be possible later for at least some participants. But we start online to be better prepared for physical meetings. Online participation possibilities during parts of physical meetings will be seriously considered.
Wiki discussion-threads can be created below using the comment function of the wiki.
Possible mailing list discussions regarding this project should initially be directed to the openEHR implementers list (if the wiki comment system below is not useful enough). Major questions, events and news should be announced on the openEHR implementers list (since we do not expect everybody to monitor the wiki). If traffic gets to intense there consider separate list.
Please add full names, specific interests, possible contributions under your organisation/name and correct misunderstandings and other mistakes.
Ocean Informatics - Thomas Beale, Seref Arikan, Sebastian, Peter Gummer
Component architecture of new tooling
Tom:
providing webservice/rest interface to OPT generation based on AWB?
single file template e.g. https://github.com/openEHR/adl-archetypes/blob/master/Example/openEHR/single_file_template/templates/openEHR-EHR-COMPOSITION.t_clinical_info_ds.v1.adls
OPT 1.4 and OPT 2.0 should be in formal specifications
Marand - Bostjan, Borut, Marko
Contributed ANTLR grammar and Java implementation of ADL 2.0 parser, see https://github.com/openEHR/adl2-core (perhaps in a distant future also interested in a pure javascript parser)
Initially acively developing/exploring/"sandboxing" and figuring out possible AOM JSON structures and serialisations - Something will be available to the community to look at in approximately 2 weeks.
Exploring split of serverside- vs client/editor-side components
Interested in getting a template designer working
Interested in mapping mechanisms between "at" and "id" codes (1.4 vs 2.0)
Code24 - Sebastian Iancu
Experience with PHP / Sencha ExtJs
In the future we can provide REST API services to make conversions or validations
DIPS - Bjorn Naess
Use cases and improvement suggestions compared to current tools
Mostly developing on .NET but have a few web developers that can be engaged
RaySearch - TBD
Interested in parser implementations using Javascript
...
Linköping University and the County Council of Östergötland: Erik Sundvall (openEHR software program coordinator)
Drafting first wikipage, setting up first online meeting,
Announcing project news via mailinglist(s)
Help research and test "Operational Transformation" possibilities/frameworks (for undo/redo and collaboration)
Interest in helping out with GUI considerations (not lead GUI development)
Interest in pedagogical RM-visualization (at some later stage of project when more important things already work..
University of Auckland - Koray Atalag & Aleksandar Zivaljevic
and then I think it is right to move to ADL 2.0 (of course 2.0 is important issue !)
HTML5+Javascript based user interface (should work nicely in full screen mode too).
Possibly server-side components (using various implementation technologies) for model conversion, validation and other things that are already (fully or partly) implemented. Existing components that already support ADL 2.0 are of course extra interesting. For offline use on not-locked-down-computers such "server components" can of course run locally.
Angular JS for GUI to model mapping + Bootstrap for CSS, some components etc
Operational Transformation (see explanations below) could provide both robust undo/redo/history functionality (and in the long run synchronus multi-user/multi-device editing).
These tools might be desirable to integrate with different vendor solutions, so modular design and configurable appearance (via CSS?) is preferred.
Proper modularisation will make it easier for different developers to work on (or replace) separate parts. Suggest modules and/or APIs below
probably as a tree of Javascript or JSON "objects"
(TODO: What kind of trees/datamodels will parsers generate? Would a (partly handcoded?) Javascript-implementaton of the AOM be needed?)
Suggestions/ideas hard to classify/separate as above
This ends the project startup section, please add you thoughts and make corrections/clarifications.
The notes/ideas below are from an old partly academic discussion regarding potential student projects, master thesis and PhD candidate work in this area. Some of the links may be dead by now. Feel free to add to the creative wiki-chaos here! More urgent and project related (less chaotic) stuff should go above the red line...
[2014-note: online collaboration is not a priority in the initial phase above]
The current archetype editors are downloadable off-line applications and collaboration is done by editing offline, then sharing/uploading and discussing online (e.g. using products like Ocean Informatics CKM).
The situation above works and can be compared with collaborative editing of word processor documents. Document writing can be done in off-line applications and then shared and discussed online, or in mail sent back and forth. Versioning and conflict resolution of parallel edits (merging etc) requires skill, time and patience. Compared to this, it is often a lot easier to collaborate using online realtime multi-user editor environments like https://drive.google.com/, https://writer.zoho.com/, and http://en.wikipedia.org/wiki/Etherpad
Many of the realtime environmants include some kind of comment/discussion mechanisms (e.g. the google drive apps) and history/playback/revisioning mechanisms that also sho who did what when. (Try “Time slider” at the etherpad-based http://piratepad.net/vDW7YbIMKv document and feel free to edit/experiment).
Just creating yet another archetype editor would not be such an interesting contribution to the world, but creating a new online collaborative archetype editor that has comments and timeline/playback functions would be a nice contribution!
When Google Wave (now Apache Wave) was active, the openEHR community tried different uses for it. Follow the threads around the message http://www.openehr.org/mailarchives/openehr-clinical/msg01615.html, and read http://omowizard.wordpress.com/2009/11/17/google-wave-and-health/ (Maybe also read some search results: https://www.google.se/search?q=openehr+google+wave) These links indicate that the real-time collaboration was appreciated for capturing knowledge in pre-editing phase of archetype creation.
Google wave was extendable with collaborative gadgets/widgets for mindmapping voting etc. There were open APIs that allowed you to add your own widgets (and server side “robots”). By combining client side gadgets/widgets with server-side robots, fairly sophisticated applications could be created.
At IMT, LiU Daniel Karlsson and Erik Sundvall supervised a student project that experimented with taking the archetyping discussions in Wave a bit closer to real archetype editing by creating widgets and robots that handled real partial archetype structures. The parts that got implemented in the limited timespan worked as expected. The editing process was automatically saved in the wave and could be played back using the wave playback function. Comments and discussion threads could be mixed in between the archetype editing widgets. During the project Google announced that it would shut down Wave, and the student project prototype was not continued by any follow-up projects.
Many real-time multi-user online collaboration tools like the ones above are based on “operational transformation” (OT). A pedagogical description of OT is available at http://www.codecommit.com/blog/java/understanding-and-applying-operational-transformation
Some interesting OT-implementation links and discussions:
A nice OT implementation is http://sharejs.org/
...others are discussed in e.g. http://stackoverflow.com/questions/2043165/operational-transformation-library
In that discussion e.g. https://code.google.com/p/google-mobwrite/ looks interesting
Operational transformation can be used on text as described above, but also data structurs like on XML (as was the case in Google Wave) and JSON (e.g. as described at https://github.com/josephg/ShareJS/wiki/JSON-Operations).
The openEHR AM can of course be represented as XML or JSON. The java-ref-impl provides XML import/export but JSON could be added (Erik S started experimenting with http://jackson.codehaus.org/ to provide AM/RM conversions to JSON)
A master thesis project or similar effort create (or explore how to create) a real-time collaborative online archetype editor. Ideally it should be possible to run the editor both in independent/freestanding mode and embedded in other collaborative environments (e.g. Google Hangouts https://developers.google.com/+/hangouts/ or similar platforms).
The broad idea is to host both pre-archetyping discussions and actual archetyping in the same (OT-based collaborative) environment that would take over most of what is done in off-line archetype editors today, a lot of what is done in the pre-editing phase, and some steps of what is done in the CKM today.
Some main ideas that can be reused from the LiU archetype-wave project are.
Use some existing framework for real-time collaboration.
Allow the archetyping discussion to start as a document with normal text, including widgets for bullet lists, mindmapping etc. Facilitate some way to include comments and discussion threads inside or connected to the document.
Add widgets for editing parts (branches/leaves) of archetypes - think of it as breaking down existing archetype editors into smaller pieces. Allow these widgets to be placed anywhere in the document/discussion/wave. [Technology under the hood: Give the widget instance a UUID or similar and make sure that the widget updates its state using the features available in the real-time collaboration platform.]
Add a tree-like widget for collecting and connecting the branch/leaf widgets into an archetype tree (without removing them from their original place in the document).
Add server side functions for validating that the created archetypes or archetype parts follow the AM, RM and parent archetypes
Use capabilities for named/numbered manually selected “revision points” (tags?) available in some real-time collaboration frameworks.
A single “document” could contain several archetypes (by including several “tree-like” connector widgets).
Going further
Import existing archetype(s) (e.g. to start review discussions)
The document editing and discussion history (not only the finished result) should be possible to archive as an external file, useful for later playback.
openEHR template editing [2014-note: With ADL 2.0 this should be included from start /Erik]
make it ‘social’ (a la google+ hangouts)
Going even further (likely something for later additional projects after an initial online-editor-focused student project)
Offline capacity in browser based applications is possible in modern browsers, see e.g. http://www.html5rocks.com/en/features/offline This could be used to have (all or some selected) archetypes and discussions available (read-only) when offline (e.g. when travelling). If implemented cleverly it will use HTML5 features for updating and downloading changes when reconnected.
HTML5 offline features combined with a local instance of the server-side archetype-validation features (e.g. a small java-based server app) could be used to reduce or eliminate online server calls when editing archetypes alone. Collaborating with others that do parallel edits to the same archetype will of course re-introduce the same merging and conflict resolution problems as the off-line approach of today has.