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noflo-rsf

v0.0.54

Published

a collection of modules for rapid collective text-driven sensemaking

Downloads

50

Readme

CircleCI Financial Contributors on Open Collective

noflo-rsf

Welcome to the Rapid Sensemaking Framework ecosystem entry point!

What Is The "Rapid Sensemaking Framework"?

The rapid sensemaking framework is a set of tools designed to facilitate human conversation, ideation, reasoning, and decision taking at a large scale.

Common processes for gathering human expressions (be they ideas, questions, claims, votes, edits, etc) are encoded as pluggable open-source modules that can reach across the various digital devices and applications we commonly use.

Skilled facilitators and process designers can use the rapid sensemaking framework to conduct and unfold processes for ideation, discussion, evaluation, and decision making.

Inspirations and related projects include the likes of

  • Kialo
    • tool to engage in thoughtful discussion, understand different points of view, and help with collaborative decision-making
  • Pol.is
    • helps organizations understand themselves by visualizing what their members think. Get a clear picture of all the points of view to help move a conversation forward.
  • Twitter Polls
  • Slido
    • Audience participation platform (corporate), Q&A and polling platform
  • Teeming
  • Poll Everywhere
  • Pulse Sense Evolve
  • Groupmap
    • capturing individual thinking, revealing the group perspective, all in real-time. Collaborative decision making.
  • All Our Ideas
    • start with a question and some seed ideas and create a "wiki survey". The best ideas bubble to the top.
  • Stormz
    • enables you to design and facilitate collective intelligence sessions to test participant's knowledge, foster meaningful conversations, co-create solutions and make informed decisions.
  • Codigital
    • "Real-Time Ideas Engine". For large groups to generate, prioritize and refine ideas.
  • Loomio
    • helps people have discussions and make decisions together
  • Assembl
    • massive collective intelligence is the capacity to mobilize communities on a large scale (hundreds and thousands of participants) around key stakes and challenges to co-create new solutions in a short space of time
  • IdeaLoom
    • sister project to Assembl
    • allows large communities to hold a meaningful conversation at scale, reach a common understanding, and develop solutions beyond what each participant could have envisioned

The basic tenets are

  • ideation
  • evaluation and ranking, sorting
  • selection, voting, consenting

Apart from a few integrations, such as ones that Loomio has with Slack, these platforms require participants to join a new platform, and familiarize with a new tool. The RSF assumes the opposite, and brings the conversation to an already familiar space to participants: a chat platform they're already using. The process designer can even specify different people as reachable on DIFFERENT platforms, and the process can still be conducted.

Using the RSF App

For any good "conversation", there is always a frame. The conversation, at least loosely, has a direction that the people who will participate in it are agreeable to and interested in. Divergent phases and convergent phases of the conversation should nicely flow and blend.

So someone who has a frame for a conversation, and wants to foster engagement begins with a selection of available recipes for a social process. Things that this person would be tuning could include amount of time available for each part of the process. Loomio includes some wonderful help text explaining best practices for using the powerful tools in the decision/polling toolbox of Loomio.

cosense app screen for configuring a generate ideas flow

As they draft the flow, they setup either an opt-in process where participants will select themselves, or if they have verbal or written consent via a personal connection, they could input each participant. To input a participant just requires adding the relevant info for the contact method they want to connect via, such as email, text, or something else.

Configure Public Link

cosense app screen for configuring public link

Participant Registration at the Public Link

cosense app screen for configuring participants

Finally, kickoff the process...

A live dashboard of events taking place in the process, and results coming in are viewable.

cosense app screen for flow dashboard

Once every step of the process has completed, the final results are saved to the computer that was hosting the process. From there, they could be uploaded to somewhere available online, or posted into a database for longevity.

This app is currently a work in progress, under development at the rsf-electron repository. In the future it will be available for download there.

Principles

The tools should offer participants in processes as much transparency into the process as makes sense for the use case. In most cases, all the participants should have the results of the entire process, rather than constrict the results to the facilitator. The process should benefit everyone, and be non value extractive in its approach to working with data.

RSF Components

Components are little modules of code. These operations can either be very quick, just performing a very simple transformation on data, requiring no human input, or they can involve lots of human input, and be medium to long running operations, meaning they could take days or weeks.

A component can do whatever it takes to ingest and coordinate this human input, which will very likely involve standing up web servers, and other connection/protocol variants.

At the time of writing, just a few components of interest have been developed, that are made to be plug and play with one another.

  • CollectResponses
    • for a prompt, collect statements numbering up to a given maximum (or unlimited) from a list of participants
    • rsf collect responses v0.0.31 screenshot
  • ResponseForEach
    • for a list/array of statements, collect a response or vote (from a limited number of valid options, or unlimited) for each from a list of participants
  • PairwiseComparison
    • input: a list of statements, process: have all participants choose preferences between pairs of statements, return the list of compared/ranked results.
  • PairwiseComparisonQual
    • like PairwiseComparison, but allows for freeform response to the relationship between the two compared elements
  • PairwiseComparisonQuant
    • like PairwiseComparison, but allows for numerical quantified response to the relationship between the two compared elements
  • ParticipantRegister
    • input: nothing, process: spin up a form on a webserver and collect peoples contact info that opt in to participate, output: a list of Contactable participantConfigs
    • rsf collect participants screenshot
  • FormatReactionsList
    • input: reactions list (from ResponseForEach), output: a string containing a nice, simple, human-readable version of the results
  • FormatStatementList
    • input: statement list, output: a string containing a nice, simple, human-readable version of the results
  • SendMessageToAll
    • Send a given string to a list of given people (by contactableConfigs). Useful in a wide array of circumstances.
  • SortPairwiseResults
    • Take a list of statements and a list of votes from PairwiseComparison and sort the list by the votes.

Lots of other Components have already been considered for implementation, for example

  • SortFullList
    • a 'social sort' algorithm
  • DotVote
    • a classic dot vote process, where people have a designated number of 'dots' to distribute across a variety of options given
  • PickFromFullList
    • select one, or a few, from a longer list

Other ideas:

  • run results through analysis algorithms for useful stats
  • publish results to spreadsheets
  • publish results to api endpoint
  • export results for CSV download

The idea is that each component should clearly define what properties or values it expects as input, and what properties or values it returns as output, if its successful.

By doing so, RSF Components can build up as a library over time, and where outputs of one component match the inputs of another, those components can be strung together into more complex sequences. They could start to be combined in many different orders and in many different ways. For example, the output of CollectResponses feeds nicely into the statements input of ResponseForEach.

Using Flowhub for Deep Design

  • Use flowhub to design a process... you can actually run it that way too.
  • https://app.flowhub.io picture of an rsf graph workflow in noflo

RSF Contactables

Contactables are at the heart of the Rapid Sensemaking Framework. They represent a way to open up bi-directional channels of communication between a "bot", and a human, represented in the most basic form of digital communication, strings of text.

A Contactable represents the idea that the Component can "hear" a person, and a person can "hear" a Component. Thus, the API for a Contactable is literally as simple in node as .speak(), .listen(). The full API will be defined soon.

Each Contactable will represent an ability to bi-directionally communicate with a human, via the same API, independent of what technology and protocol is carrying the communications.

Configurations for people will be given as arrays in participantsConfig, and the Components will carry out their operations, independent of what channels they are communicating via, thus enabling the full cross-platform cross-protocol solution.

A personConfig object will be at a minimum something like:

{
    "type": "sms",
    "id": "+12223334444"
}

"name" is treated as an optional property

At the time of writing, Components that use Contactables include PairwiseComparison, CollectResponses and ResponseForEach.

There is a module that collect a participantsConfig array as an output, which can then be fed in to another module. That is ParticipantRegister.

Implementations So Far

rsf-contactable is the main source of information on implemented carrier types, but here is a short and simple list:

  • rsf-smsable implements a texting carrier, via the Twilio APIs
    • the type to give as a personConfig JSON object is phone and the format of id must be like '+12223334444' (North American)
  • rsf-mattermostable implements a Mattermost carrier, via the Mattermost APIs
    • the type to give as a personConfig JSON object is mattermost and the format of id must be like 'username@https://mattermost-server.com'
  • rsf-telegramable implements a Telegram carrier, via the Telegram APIs
    • the type to give as a personConfig JSON object is telegram and the format of id must be like 'username'

Work In Progress

Implementations under consideration:

  • rsf-messenger (fb)
  • rsf-emailable
  • rsf-matrix
  • rsf-twitter

Challenges

The biggest challenge so far encountered is rate limits on APIs. This constrains the number of messages that can be sent by a "bot" within a certain period of time, limited differently depending on the system. If the contactable implementation doesn't take that into account, some messages will be dropped, which breaks the viability of the system. It is important to research the rate limits of a given system and make sure that an implementation conforms to them.

Contactable API Specification

Please write other Contactable carriers, simply conforming to this minimal API! To get them fully implemented, please submit a PR to rsf-contactable.

constructor(id, name)

id : string, this value should represent the full information required to contact a person via the type of carrier it is over. For example, if type is phone, then id should be of the format +12223334444, but if type is email then id should be a valid email, e.g. [email protected]

name : string, optional, a name which can be used throughout the Components at times to address the person in a more congenial way, during communications with them, if appropriate.

.speak(text: string): Promise<void>

Send a string of text to the person represented by the given Contactable.

Todo

  • [ ] update .speak API so that it returns a promise that resolves when confirmation that the message has successfully been sent and received occurs. this will allow finer control of flow important in modules.

.listen(callback(text: string) => void): void

Set a function which will be called any time that the person represented sends a string of text back to the Component.

.stopListening(): void

Calling this will prevent any and all callbacks passed to listen from firing again. Should be called as cleanup after use.

.id : string

The id of the person given to the constructor function.

.name : string

The name of the person given to the constructor function.


Valid noflo port datatypes are: all, string, number, int, object, array, boolean, color, date, bang, function, buffer, stream

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