Working Draft 04
22 April 2014
Technical Committee:
OASIS Transformational Government Framework TC
Chair:
John Borras (johnaborras@yahoo.co.uk), Individual
Editors:
John Borras (johnaborras@yahoo.co.uk), Individual
Hans
A. Kielland Aanesen (hans@eprforum.no), Individual
Nig
Greenaway (nig.greenaway@uk.fujitsu.com),
Fujitsu
Related work:
·
Transformational
Government Framework Version 2.0. Latest version http://docs.oasis-open.org/tgf/TGF/v2.0/TGF-v2.0.html
Abstract:
This
Committee Note contains detailed information and guidance on using the
Transformational Government Framework (TGF) and other OASIS standards to
support the work of the delivery of e-Health services provided in the home or in the
community.
It identifies in particular which of the Core Patterns and Policy
Products are relevant and where necessary elaborates them more specifically to
the e-Health domain.
By
applying the principles and good practices of the TGF to the setting up and
management of e-Health programmes, all stakeholders should be able to deliver a
more effective and efficient response to the future needs of patients and
healthcare practitioners.
Further guidance on any aspects can be obtained from the
TGF Technical Committee using the “Send A Comment” facility on the TC website -
http://www.oasis-open.org/committees/tc_home.php?wg_abbrev=tgf
Status:
This
Working
Draft (WD) has been produced by one or more TC Members; it has not yet been
voted on by the TC or approved
as a Committee Note Draft. The OASIS document Approval
Process begins officially with a TC vote to approve a WD as a Committee
Note Draft. A TC may approve a Working Draft, revise it, and re-approve it any
number of times as a Committee Note Draft.
Initial URI pattern:
http://docs.oasis-open.org/tgf/TGF-eHealth-Profile/v1.0/cnd01/TGF-eHealth-Profile-v1.0-cnd01.doc
(Managed by OASIS TC Administration; please don’t
modify.)
Copyright © OASIS Open 2013. All Rights Reserved.
All capitalized terms in the following text
have the meanings assigned to them in the OASIS Intellectual Property Rights
Policy (the "OASIS
This document and translations of it may be copied and furnished to others, and derivative works that comment on or otherwise explain it or assist in its implementation may be prepared, copied, published, and distributed, in whole or in part, without restriction of any kind, provided that the above copyright notice and this section are included on all such copies and derivative works. However, this document itself may not be modified in any way, including by removing the copyright notice or references to OASIS, except as needed for the purpose of developing any document or deliverable produced by an OASIS Technical Committee (in which case the rules applicable to copyrights, as set forth in the OASIS IPR Policy, must be followed) or as required to translate it into languages other than English.
The limited permissions granted above are perpetual and will not be revoked by OASIS or its successors or assigns.
This document and the information contained
herein is provided on an "AS IS" basis and OASIS DISCLAIMS ALL
WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT
THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY OWNERSHIP RIGHTS OR ANY
IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
Table of Contents
1.1
References (non-normative)
4 Implementing the New Service
Model
4.1. National Transformational Infrastructures
4.5. The Use of OASIS Standards
4.5.1. Transformational Government Framework (TGF)
4.5.2. Business-Centric Methodology (BCM)
4.5.3. Content Assembly Mechanism (CAM)
5.1 Core Pattern B1 - Vision for Transformation
5.2
Core Pattern B3
-Transformational Operating
Model
5.3
Core Pattern B7
– Stakeholder Collaboration
5.4
Core Pattern B9 - Common
Terminology and Reference Model
5.5
Core Pattern T2 -
Technology Development and Management
6 e-Health Policy Product Types
“Business
Management/Political”
“Business
Management/Organisational”
“Business
Management/Semantic”
“Service
Management/Political”
“Service Management/Technical”
6.3 Technical and Digital Asset Management Layer
“Technical and Digital Asset Management/Political”
“Technical and Digital Asset Management/Organizational”
“Technical and Digital Asset Management/Technical”
The delivery of health services around the world is changing
rapidly, brought about by advances in surgical and non-surgical treatments, the
increasing aged population, funding pressures, and the increased availability
of self-help facilities and private healthcare schemes. Less time is being spent in hospitals
through advances in surgery recovery times, pressures on beds, the availability
of better home help services, etc. This
all requires a new model of the delivery of health services provided in the home
or in the community, ie not primary or secondary care services provided in
hospitals and doctors’ surgeries.
For the purposes of this profile it is necessary to
differentiate between what is commonly called primary and secondary care, and
home and community care. Primary care
refers to the work of healthcare professionals who act as a first point of
consultation for all patients within a healthcare system, and secondary care is the healthcare
services provided by medical specialists and other health professionals who
generally do not have first contact with patients. Home and community
care refers to the many types of healthcare interventions delivered
outside of these primary and secondary facilities. It includes the services of
professionals in residential and community settings in support of self care,
home care, long-term care, assisted living, and treatment for substance use
disorders and other types of health and social care services.
This profile focuses on the latter category and describes how
these future home and community services can be delivered using new disruptive
and interacting technologies and using open standards developed by OASIS and
other organizations.
Remote Healthcare is just one facet of life that is made
possible by the Internet of Things (IoT) [Ref 11]. The IoT integrates physical
objects into information networks and allows those physical objects to become
active participants in business processes. This provides a basis for devices to
monitor patients’ health, track and record exercise, sleep, and health
information and to tell practitioners whether treatment is being applied, and
if so, how it’s working.
[Ref 1] Diagrams of e-Devices and other self-care
facilities see http://www.eprforum.no
[Ref
2] e-Device apps developed in USA see http://video.msnbc.msn.com/rock-center/50582822#50582822.
[Ref 3] Technical University of Munich (TUM) research see http://www.tum.de/en/about-tum/news/press-releases/short/article/30440/
[Ref 4] Edinburgh University research see http://www.bbc.co.uk/news/uk-scotland-22695278
[Ref 5] Public Supervision & Quality Assurance (PSQA) see http://www.eprforum.no/product.php/Supervision-and-Quality-in-Home-care-services/50/
[Ref
6] e-Folder standard see http://www.eprforum.no/product.php/Standard-EPR-and-e-Folder/3/
[Ref 7] e-Device standard see http://www.eprforum.no/description.php/EPR-eDevice/5/
[Ref 8] OASIS BCM-EPR SC see https://www.oasis-open.org/apps/org/workgroup/bcm-epr/
[Ref 9] CAM
templates see http://www.eprforum.no/product.php/CAM-Template-EditorProcessor/37
[Ref 10]
European Interoperability Framework (EIF) version 2.0 see http://ec.europa.eu/isa/documents/isa_annex_ii_eif_en.pdf
[Ref 11] The Internet of Things see http://en.wikipedia.org/wiki/Internet_of_Things
2 The e-Health TGF Profile
The Profile contained in this Committee Note contains
detailed information and guidance on using the TGF and other OASIS standards to
support the work of the home and community healthcare community. A full explanation of the TGF is given in
the TGF v2.0 and whilst this Committee Note makes no attempt to re-write that
document, it does “translate” the most relevant parts into the language more
appropriate for that community. It also
identifies in particular which of the Core Patterns and Policy Products are
relevant and where necessary elaborates them more specifically to the healthcare
domain.
The Transformational Government Framework
is a practical “how to” standard for the design and implementation of an
effective programme of technology-enabled change at national, state, county or local government level. It sets out a
managed process of ICT-enabled change in the public sector, which puts the
needs of citizens and businesses at the heart of that process and which
achieves significant and transformational impacts on the efficiency and
effectiveness of government. The
Framework is applicable to a variety of domains of government activity and
although the TGF talks primarily about the delivery of citizen-centric services
it is equally applicable to other areas of public sector business including healthcare in the home and
community. The fundamental principles being that the
structures, governance, funding, culture, and stakeholder engagement are all
organized in a holistic way for the benefit of patients and healthcare
practitioners,
which has to be the primary objective
of any e-Health programme.
The TGF makes the point that all around the world,
governments at national, state, and local levels face huge pressure to do “more
with less” and every government faces the challenge of achieving their policy
goals in a climate of increasing public expenditure restrictions. This situation is equally true for those
responsible for operating e-Health programmes and there are clear opportunities
to realize economic benefits through full citizen, business and private sector
stakeholder engagement in the development of home and community healthcare programmes.
Advances in technology, such as the Internet of Things, are
providing the devices and means of delivering necessary healthcare services to
locations away from hospitals and surgeries, eg to patients’ homes, care homes,
holiday homes, etc. Through the use of
these various devices and also online self-help facilities [Ref 1] patients can service their own
needs but at the same time trigger emergency help when the need arises. The new disruptive technologies available
today are helping
to create new markets and value networks, and displacing earlier
technologies. This includes handling
health condition monitoring in real time enabling actions to be taken before
emergency help and resources are needed.
Use of these technologies and devices does not take away the
need for face-to-face interaction but they do enable that time commitment can
be kept to a minimum and thus reduce the burdens on the already over-stretched healthcare
resources. It also enables the desire of
many patients today, especially the elderly, to be independent and remain in
their own homes rather than being kept in hospital or in care homes.
Examples of the advances being made are as
follows:
-
doctors in USA [Ref 2] have developed a
number of apps that can run on a smart phone providing remote, wireless
diagnosis and monitoring that can lead to better and cheaper healthcare and
provide lifestyle changes for the patient .
They are also developing a remote wireless monitor that can be worn on
the wrist to reduce the need for constant visits to a hospital or surgery.
-
researchers at the Technical University of
Munich (TUM) [Ref 3], in
collaboration with business partners, have designed an assistive system for
helping senior citizens live at home by embedding a tablet computer in the
wall. As well as providing a central location where
users can access all of the information they need, such as family and emergency
phone numbers, it also contains biosensors that can measure vital signs so the
system can recommend exercise or medication, or alert a physician or mobile
nursing service if the health problem is critical.
-
researchers at Edinburgh University [Ref 4] found that the blood pressure of people
who used a self-monitoring system in a six-month trial dropped further than
those who did not. A portable machine which lets people measure their own blood
pressure and send results directly to doctors is said to have improved patient
health. The portable system allowed
patients to send readings to doctors and nurses, who then checked the figures
and, if necessary, contacted the patient to discuss their health and
medication.
Whilst the technology exists today as these examples
demonstrate, there is a need to ensure that all the various devices can work
together and provide a single view of the patient’s care needs. Aspects such as patient choice and privacy
must also be considered. That is where the use of standards comes in and it
requires hardware and software providers to use these standards to ensure there
is the necessary interoperability that enables the required flows of data
between patients and healthcare practitioners.
In
addition to making the various devices work together, huge benefits can be
achieved with a single system of data entry - as more and more people are being
discharged from hospitals sooner, with more focus on management in the
community, having that vital information about what has been happening in
either sector provides a more effective prompt service to the
patient. Much time is wasted in hospital in trying to find out what has
been happening in the community before admission, and vice-versa, so if
this information is readily available, more productive time can be spent
ensuring the patient gets the required treatment. And it promotes better multi-disciplinary
working if all health professional notes are shared, because each professional's
work is affected by another’s. Linking these various records is valuable to
monitor those patients who are at risk of self neglect or isolation in the
community, subject to patient choice and privacy constraints.
There are a number of aspects that need to be addressed in
order to implement the new service model for home and community healthcare. These are described in the following
sub-sections.
Dealing with global Internet information exchanges on a large
number of different world based connected national infrastructures requires the
need to split the global governance of the physical infrastructures and the
private and public controlled services running on them. Cloud technology should
not exclusively be controlled by private business enterprises; they need to
co-operate with public cloud services and be subject to quality standards (for
example, the Norwegian Public Supervision & Quality Assurance (PSQA) [Ref 5] approach). Cloud services should show a clear split
between the data and the software solutions.
The data should be preserved for “ever” but the software needs to be
substituted and changed according to the technology development. Today several
national governments are wasting enormous amounts of money on infrastructures
run on private software vendor’s regimes.
Adaptive and agile templating requires a clear split between shared data
and the different interacting software applications.
Ineffective and inefficient progress can be seen in many countries
where taxpayers’ money is being wasted building unneeded isolated public
networks with tied up services not available for the citizens or other
application business areas such as:
-
Healthcare networks
-
Smart Grid networks
-
Police networks
-
Military networks
-
Emergency networks
-
Broadcasting networks
-
Tax system networks
-
Road and Railroad control networks
-
etc
However, it is important to realize that ‘one size fits all’ is not
usually a valid approach. For example, low-power free-to-use alternatives may be appropriate for
linking e-Devices where there are small amounts of data to transfer, where
battery life is an issue, and where network charges would make the application
uneconomic.
New thinking is required to differentiate between the following 5 important
related aspects:
1.
National communication infrastructures - "Information
Highways" the national physical interacting packet switched
IP-networks using basically Fibre and 4G-mobile networks.
Today’s typical mix of these 5 areas into silo and monopolistic systems
of locked vendor regimes do prevent the needed interaction reforms in public
sector to succeed, especially regarding the often legislated public services
needing a common national interaction area indicated by 1, 2 and 3 above. This
has to do with society’s backbone responsibility of administrations tasks, not
driven by profit goals, but operating securely and enabling fair competition in
areas 4 and 5 above for business related software and attached services. Even if areas 1-3 are the public sector’s
responsibility, companies should be able to compete on common terms to handle
them, but these companies should be prevented from delivering software programmes/platforms
or services to avoid a monopolistic or oligopolistic market situation.
The physical implementation of this new service model will be
by using the Internet to enable standardized flows of data between patients and
the executers of healthcare services.
Most of this data comes directly from the patient’s own monitoring
e-devices but also via self-help facilities. Through a neutral and public defined “Super Structure” it is
possible to demonstrate how to solve much of the rising healthcare interaction
problems related to the holistic approach of needed common information exchange
modelling. The interaction via the
Internet enables new ways of self diagnosis, self service and use of expertise
through new ways of frontline service management as covered in the TGF.
One way of implementing this new agile meta-engineering
is through the use of the Norwegian EPR Public Supervision and
Quality Assurance programme ( PSQA ) [Ref 5] which is
developing a common electronic framework
for the healthcare supervision and quality assurance of citizen services and
for the business enterprises involved.
PSQA is intended to
be used in all relevant healthcare supervisions and by the enterprises that
need to comply with the supervision requirements. It is based on international
quality standards and uses electronic folders that integrate and interact with
the underlying legacy and expert systems in general handling the service
management.
An important aspect is the interaction between the
workflow service management for service executers dealing with the e-Folders [Ref 6] and the
condition monitoring and deviation response system handled by e-Devices [Ref 7] in
real-time, home automation and body sensing condition monitoring. Typical application areas are:
·
Integrated e-Device Condition monitoring ( Body and Environment adapted
User Scenarios)
·
Interaction of e-Folder Service work, Planning and Reporting (task
description, reporting and inspection)
·
Service Tools access using the OASIS CAM Templating editor (role
control by digital signature using the OASIS PKI standard )
The solution to delivering the service management
described above is to extract the computer support into electronic folders. The
folders have a standard design with standardized functionality and give the
user access to all needed information and help in the performance of the task. Access is given through "single sign
on" and approved digital signatures for identification. Special applications and expert systems can
be integrated into the folders.
Important properties of the use of e-folders being
introduced in Norway are:
·
The folders are a framework. The framework has several purposes, a
common access point for all relevant information, in order to integrate under
laying systems, to be used as next generation of “front office". The
framework will function by use of open standards for processing XML-based
templates. The folders will also be able to use a number of other standards.
·
Integration of applications and data will be controlled by commands (on
demand). Applications can be components in special applications, expert
systems, and help for users e.g. access on command is the opposite of permanent
access. Access on command belongs to a technology called loosely-coupled
applications.
·
The folders are customized (adapted) for the actual need. This means
that only correct and needed information will be available through the folders.
·
The folders are dynamic; they can be extended or reduced as needed.
This is possible because of the standardized structure that the folders have
been designed around. The structure is the base for automatic modeling of generic
information.
The principles around customized
folders and access on command are important components in order to avoid
unnecessary dispersion of information. In addition to clear role structure this
is especially important in order to protect sensitive information and to
protect personal integrity.
|
|
Environmental control and patient condition monitoring
through interoperating electronic equipment is crucial for self-centric healthcare
management. Work is ongoing within the OASIS
BCM-EPR Sub-Committee [Ref 8] to produce a functional standard for e-Devices. The standard sets down the Methodology for Condition
Monitoring and the environmental access control
template management. It represents a
standardized functional mirrored model of electronic network devices (nodes)
that are connected to e-Folders content through Web services technology.
It is derived from the ANSI/CEA-721 work developed over the last 25 years by
more than 400 companies, organizations and individuals. The standard demonstrates how all the
real open BUS-technology standards can interact through a common top level real
open XML based functional modelling layer.
Many of the standards required to support the delivery of the
services described above have been developed by OASIS. The three described below provide the means of
defining and developing the specific model for the home and community service
care.
The most relevant characteristics of the TGF approach that
support this new healthcare service model are:
·
it takes a whole-of-government view of the
relationship between the public sector and the citizen. This provides the
correct working environment for the new service model to be developed through
the use of joined-up resources across agencies, the sharing of data, the use of
common rules and procedures, etc.
·
it recognizes the need to e-enable the whole
frontline of public services: that is, including staff and organizations
involved in direct, personal delivery of services (such as healthcare) as well
as e-enabling transaction-based services.
Using the TGF approach will ensure an effective programme of
change can be developed to deliver the services for the new home and community
care model. It will ensure that all the
necessary stakeholders are involved, that resources are correctly identified
and managed, and that the envisaged benefits and outcomes are achieved.
The Business-Centric Methodology is a specification that
provides business managers with a set of clearly defined methods with which to
acquire agile and interoperable e-business information systems within
communities of interests. It provides managers with a clear
understanding of what the business goals and appropriate steps are that need to
be applied for a specific project to succeed.
The BCM efforts are on
communication at three levels: (1) lexical, (2) semantic, and (3) pragmatic
interoperability for sets of Community of Interest (CoI), eg healthcare. The
BCM templates collect objectives and rationale for pragmatic interoperability
by recording and sharing design decisions along with artifact data. The layered
BCM products relate one or more artifacts together by including rich metadata
on each link for semantic interoperability. The BCM combines together these
components and calls for their management within an information architecture
founded on conceptual agreements (lexical).
The Content Assembly Mechanism specification provides a
generalized assembly mechanism using templates of business transaction content
and the associated rules. Information
exchanges are moving to technical formats using XML technology worldwide.
However XML by itself is only a mark-up language, it was never intended to
support exacting business interchange definitions, rules and industry
vocabularies. To provide that extra level of robust information definition and
exact control CAM has been developed to enable business users to quickly and
easily use templates to declaratively assert these missing business rules and
structural information requirements.
Working examples [Ref 9] using the CAM
editor have been developed to make the necessary template models for 3
e-Device health units, a SmartGrid Light sensor, a Thermostat and an Electrical
meter, and more are being developed.
The Transformational Government Framework
(TGF) Standard is expressed as a series of Core Patterns. The rationale for using the Pattern Language
approach and the format of them is set out in the TGF v2.0 document and that
should be read in conjunction with this Section.
Most if not all of the TGF Core Patterns
are relevant to the healthcare community.
Some are very generic to all domains of government activity and therefore
require no further explanation in this Profile.
The full text of them is available in the TGF v2.0 document. However some are considered essential for
e-Health programmes and these are shown in full below suitably tailored for
that community but include references to the main TGF Core Patterns.
Context
First among the [GP1]
Guiding Principles is the need for [B2]
Program Leadership to develop a clear, compelling and shared vision for the e-Health
transformation program.
v v v
The Problem
Without a
well-expressed vision, developed and bought into by all of the stakeholders, an
e-Health transformation program is likely to become a disjointed set of
initiatives and be dominated by technology issues.
It is not the intent of the Transformational Government
Framework to describe some perfect “end-state” for governments and healthcare
communities. All communities are different: the historical, cultural, political, economic, social and
demographic context within which each operates is different, as is the legacy
of business processes and technology implementation from which it starts. So
the Transformational Government Framework is not a “one-size-fits-all”
prescription for what a healthcare community should look like in future.
Rather, each e-Health
program needs to set its own clear vision.
This will require agreement and clarity amongst stakeholders on:
·
the social, economic and/or
environmental impacts that the program seeks to achieve;
·
the challenges that an e-Health program
needs to overcome in order to deliver these impacts and the vision should
address – such as, for example:
−
Healthcare
budget pressures
−
Changing
patient needs
−
Patient
choice
−
Patient
privacy
−
Advances in surgical
and non-surgical treatments
−
Infrastructure
stress
−
Resource
scarcity
−
Skills
and market access
−
Growing
population
−
Aging
population
−
Mobile
population
−
Economic
inequality
−
Digital
divide
· how the future will
“feel” different for key stakeholders – so that the vision is articulated not
in technical terms, but also in human and emotional ones.
v v v
The Solution
Program Leadership must create a vision for the e-Health program
that:
a) is
developed in an iterative and collaborative manner (that is, inclusive of all
stakeholder groups and informed by patient and practitioners research and
engagement, with social media and other technologies used to enable wide public
participation in the process);
b) embraces
the opportunities opened up by new technologies and delivery channels, open
data and effective collaboration;
c) does so in
a way which integrates these with the core socio-economic, political and environmental
vision for the future, rather than seeing them as somehow separate from the healthcare
management’s core strategic objectives;
d) can be measured.
v v v
Linkages
The vision should be informed
by the TGF program’s [GP1] Guiding
Principles, and developed through intensive [B5] Stakeholder Collaboration. It is vital
to ensure that the vision can be expressed in terms of measurable outcomes and
that clear “line of sight” is established between all activities in the roadmap
and delivery of these outcomes for the program vision. Guidance on how to do this effectively is set
out at TGF v2.0 Section 7 Benefit Realization.
Context
A central task of the [B2] Program Leadership and [B5] Stakeholder Collaboration is to
enable the machinery of government to deliver customer-centric services. The
principles set out in that Pattern apply equally to the leadership of the
e-Health programme and the delivery of care and services to patients. They need
to cooperate with all stakeholders in developing a new business model that
delivers that care and other services in practice, when and where they are
needed.
v v v
The Problem
The failure to create an appropriate new operating
model has arguably been the greatest weakness of most traditional healthcare
programs. The transition to e‑Health has involved overlaying technology
onto the existing operating model of the health care sector: an operating model
based around existing functionally-oriented departments, agencies and
practitioners. These behave like unconnected silos in which policy-making,
budgets, accountability, decision-making and service delivery are all embedded
within a vertically-integrated delivery chain based around delivery functions rather than patient needs.
The experience of
healthcare communities around the world over the last two decades has been that
silo-based delivery of services simply does not provide an effective and
efficient approach to e-Health. Many attempts have been made to introduce
greater cross-community coordination, but largely these have been "bolted
on" to the underlying business model, and hence experience only limited
success. Without examination of, or fundamental change to, the underlying
business model level, the design and delivery of care and services remains
fragmented and driven by the structures of the community, rather than the needs
of the patients.
Figure 3
below illustrates the traditional operating model which is still typical of
most governments and healthcare communities:
·
the individual patient usually has to
engage separately with each silo: making connections for themselves, rather
than receiving seamless and connected service that meets their needs;
·
data and
information has typically been locked within these silos, limiting the
potential for collaboration and innovation across the community, and limiting
the potential to drive change at speed.
|
|
|
|
Figure 3 – Traditional operating model: where healthcare communities have come from
Healthcare transformation programs involve
a shift in emphasis, away from silo-based delivery and towards an integrated,
multi-channel, service delivery approach: an approach which enables a
whole-of-community view of the patient and an ability to deliver services to
patients where and when they need it most, including through one-stop services
and through private and voluntary sector intermediaries.
Key features of this shift to a
transformational operating model include:
a) investing in smart data, i.e.
ensuring that data on the performance and use of the healthcare community’s
physical, spatial and digital assets is available in real time and on an open
and interoperable basis, in order to enable real-time integration and
optimization of resources;
b) managing public sector data as an asset in
its own right, both within the community and in
collaboration with other significant data owners engaged in the e-Health program;
c) enabling externally-driven,
stakeholder-led innovation by patients, carers,
communities and the private and voluntary sectors, by opening up data and
services for the common good:
· both at
a technical level, through development of open data platforms;
· and at a
business level, through steps to enable a thriving market in reuse of public
data together with release of data from commercial entities in a commercially
appropriate way;
d) enabling internally-driven, practitioner-led
innovation to deliver more
sustainable and patient-centric services, by:
·
providing patients with healthcare and
services, which are accessible in one stop, over multiple channels, that engage
patients, carers, specialists and communities directly in the creation of
services, and that are built around patient needs not the healthcare
community’s organizational structures;
·
establishing an integrated business and
information architecture which enables a whole-of-health service domain view of
specific patient groups for e-Health services (e.g. elderly people, drivers,
parents, disabled people);
e) setting holistic and flexible budgets, with a
focus on value for money beyond standard departmental boundaries;
f) establishing community-wide governance
and stakeholder management processes to support
and evaluate these changes.
Figure 4 summarizes these changes to the
traditional way of operating which transformational healthcare programs are
seeking to implement.
|
|
Figure 4 – New integrated operating model: where healthcare
communities are moving to
v v v
The
Solution
e-Health programs should therefore ensure that their [B1] Vision for Transformation
includes the need to establish
a Transformational Operating Model to help build healthcare services around patient
needs, not just healthcare community’s organizational structure. This will
include:
The
Transformational Operating Model must go beyond simple coordination between the
existing silos and should include:
v v v
Linkages
Rather than attempting to restructure
healthcare communities to deliver such a Transformational Business Model, the [B4] Franchise Marketplace SHOULD be
considered as the recommended approach to implement this model. Multi-channel delivery of services can be
provided through optimized [S6] Channel
Transformation and public data can be opened up to create new sorts of
value through [S1] Stakeholder Empowerment. Common patient
data sets can be built as shared services with customer data under customer
control and managed using [T2] Technology
Development and Management. This pattern is facilitated by placing patient
and organizational data under their control as set out in [S3] Identity and Privacy Management.
Context
Effective stakeholder collaboration is
critical. Establishing a process of sustainable change requires a critical mass
of actors inside and outside of the Home
and Community practitioners to be both engaged and supportive. Delivering a [B1] Vision for Transformation cannot be
done without meaningful stakeholder collaboration.
The public, private,
voluntary and community healthcare sectors have considerable influence on patients’
attitudes and behavior. These influences must be transformed into partnerships
which enable the market to deliver programme objectives. This requires a “map”
of all stakeholders as part of overall business management.
v v v
The
Problem
It
is not enough to map and understand stakeholder relationships and concerns. Classic models of stakeholder engagement also need to be re-assessed.
Leaders from all parts of the health
organization, as well as other organizations involved in the program, need to
be motivated for the program to succeed and need to be engaged in clear and
collaborative governance mechanisms to manage any risks and issues. The
development and delivery of an effective e-Health program requires engagement
with a very wide range of stakeholders, not only across the whole of government
but also, in most cases, with one or more of the private, voluntary and
community healthcare sectors as well as with patients and other service
customers. A significant effort is needed to include all stakeholders in the
governance of the e-Health program at an appropriate and effective level.
Key elements are set out below that a conformant e-Health program will
need to address in developing its Collaborative Stakeholder Governance Model,
if it is to engage successfully with stakeholders and align them effectively
behind shared objectives.
Figure 6:
Overview of Collaborative Stakeholder Governance
It is vital to describe and map the complete landscape of relevant
stakeholders. The Transformational Government Framework
puts the individual – whether acting on their own behalf as a citizen or on
behalf of another citizen or of a business– at the centre:
Figure 7: Landscape
of some key stakeholders
This view
deliberately and completely avoids the rather generic concept of ‘User’ that is
dominant in traditional IT stakeholder engagement models, preferring rather to
identify the different interests and concerns that are at stake (the mauve
labels) and the key groups of stakeholders (the different people icons) in the
development of any service.
The figure is by no means complete nor the
only ‘valid’ view. It seeks instead to illustrate that the process of
transformation requires reappraisal of the current set-up and assessment of
what needs to change.
By clearly
separating out key stakeholder groups and starting to understand and articulate
their specific concerns as stakeholders
(any individual’s role may vary
according to context: in one situation, a person is a parent; in another, a
policy-maker; or another, a service provider), we can start to understand how
stakeholders relate (in different roles): to each other; to various
administrations and services involved; to policy drivers and constraints; and
how these all come together in a coherent ecosystem supported by a
Transformational Government Framework. In this view:
A service
(or ICT capability made available as a service) is understood as responding to
a set of requirements and policy goals (some of which overlap) – stakeholders
concerned at this level include, for example, case workers in a public
administration or developers who have worked with them in delivering a specific
service;
Requirements encapsulate and formalize vaguely stated
goals and needs of patients, carers and businesses and take on board the policy
goals of the political sponsor or champion – stakeholders at this level
include, for example, managers of public service who can articulate the needs
of their respective services, the information and systems architects who
capture those needs as formal requirements that engineers can work with to
develop services;
Policy
Goals
capture the high-level concerns and priorities of the political and health authorities
and continually assess how these goals reflect key patient and service delivery
concerns – stakeholders include policy makers and senior management as well as
consultants and analysts involved in helping identify technology and
administrative trends that can be used to leverage those goals; and finally;
Patient, carer and specialist needs that, ultimately, can only be
fully understood by the people concerned themselves – nonetheless stakeholders
at this level can also include patient or business associations, consumer and
other interest groups who engage with policy makers to advance the interests of
certain groups with distinct needs and are able to articulate those needs in
ways that can be used by analysts and consultants.
The various ellipses in the diagram above
are deliberately not concentric circles. This is to underline that the process
of establishing a service or capability is not a linear one going from needs,
goals and requirements. In reality stages are often inter-related.
The mapping of stakeholders and their
principal concerns at a generic level is used as a key input to the TGF [B9] Reference Model and that needs to
be validated within any e-Health program. It is valuable as a tool for
encouraging collaborative governance as it renders explicit many of the
relationships and concerns that are often left implicit but nonetheless impact
on an organization’s ability to reflect stakeholders’ concerns.
However, it is
not enough simply to map and understand stakeholder relationships and
concerns. An effective e-Health program
will also address the three other dimensions of the model illustrated above:
Stakeholder Engagement Structures: the organizational arrangements put in
place to lead the transformation program, e.g.:
-
central unit(s)
-
governance boards
-
health communities.
Stakeholder Engagement Processes: the processes and work flows through which
the e-Health Leadership and the different Stakeholders interact, e.g.:
-
reporting and accountability processes
-
risk management processes
-
issue escalation processes
-
consultation processes
-
collaborative product development processes.
Stakeholder Incentives: the set of levers available to drive
change through these governance structures and processes. These will vary by jurisdiction, but typical
levers being deployed include:
-
central mandates
-
political leadership
-
administrative championship
-
personal performance incentives for healthcare professionals
-
alignment between public
policy objectives and the commercial objectives of private sector partners.
There is no one right model for doing this
successfully, but any conformant e-Health program needs to make sure that it
has used the framework above to define its own Collaborative Stakeholder
Engagement Model which explicitly articulates all of these elements: a
comprehensive stakeholder map, coupled with the structures, processes and
incentives needed to deliver full understanding and buy-in to the program, plus
effective stakeholder action in support of it.
Collaboration
between e-Health Programs
The model clearly focuses attention within any specific e-Health program. However (and increasingly) collaboration is required also between governments and healthcare communities and, by implication, between e-Health programs. In the figure below, we see that collaboration between e-Health programs is favoured at the political, legal and organizational levels and only later, if and when necessary, at the more ‘tightly-coupled’ semantic and technical levels.
Figure 8:
Collaboration between eHealth programs through different levels of
Interoperability
This approach is also consistent with the
SOA paradigm for service development – not only are requirements defined and
services offered independently of any underlying technology or infrastructure
but also one e-Health program can be seen (and may need to be seen) as a
‘service provider’ to another e-Health program’s ‘service request’. For
example, a patient wishing to use healthcare facilities in a second country may
need to provide authenticated information and credentials managed by the
government or health care community in the first country.
A further advantage of this approach is
that it becomes easier to identify and manage high level government
requirements for services: whether in the choice of ICT standards that may need
to be used to address a particular technology issue or determining the criteria
for awarding public procurement contracts, this approach allows a
‘loose-coupling’ at the level of clearly defined high-level policy needs rather
than the more tightly-coupled and often brittle approach of specifying
particular technologies, software or systems.
v v v
The
Solution
e-Health programs should establish, and give high
priority and adequate resources to, a formal
managed stakeholder engagement program. This should be led by a senior
executive and integrated into the roles of all involved in delivering the
e-Health program, and should cover:
·
Stakeholder modelling: identifying and mapping the relationships between all key stakeholders
in the program (patients, healthcare professionals, suppliers, delivery partners
elsewhere in the public, private and voluntary sector, politicians, the media,
etc.); maintaining and updating the stakeholder model on a regular basis;
·
A collaborative stakeholder
governance model: establishing a clear set of
structures, processes and incentives through which the [B2] Program Leadership and the different stakeholders will interact, and covering:
‒ stakeholder
participation: ensuring that
all stakeholders have a clear understanding of the e-Health program and how
they will benefit from it, and have effective and inclusive routes (including through use of
digital media) to engage with and participate in the program;
‒ cross-sectoral
partnership: engaging
effectively with stakeholders from the private, public and voluntary sectors to
deliver the program in a way that benefits all sectors;
‒ engagement
with other e-Health programs to learn lessons and exchange experience.
v v v
Linkages
Stakeholder
Collaboration should be established as a formal workstream within the [B10]
Roadmap for Transformation, with measurable performance
metrics built into the Benefits Realization framework. Stakeholder engagement underpins all other
parts of the e-Health program, because anyone in involved in the realization of
the [B1] Vision for Transformation (or receiving
benefits as a result) is considered a stakeholder. However, intensive
multi-stakeholder engagement is particularly important for [B1]
Vision for Transformation, [B2]
Program Leadership, [B7] Supplier Partnership, [S2]
Brand-led Service Delivery,
[S1] Stakeholder Empowerment and [S3] Identity and Privacy Management. The development of successful customer
franchises within the [B4] Franchise
Marketplace will depend on the effectiveness of collaborative governance –
while at the same time helping improve stakeholder collaboration significantly.
Context
In any e-Health programme it is vital that
all stakeholders have a common understanding of the key concepts involved and
how they interrelate, and have a common language to describe these in.
v v v
The Problem
Leadership and communication both break
down when stakeholders understand and use terms and concepts in very different
ways, leading to ambiguity, misunderstanding and, potentially, loss of
stakeholder engagement.
In everyday life, we use terms
– ‘citizen’, ‘need’, ‘service’ – as common, often implicitly accepted labels
for concepts.
The concept is the abstract mental idea (which should be universal and language
independent) to which the term gives a material expression in a specific
language. Particularly in an international environment such as global
standardization initiatives, the distinction is important as it is common
concepts that we wish to work with, not common terms[1].
This distinction also helps avoid common
modeling pitfalls. Terms that may seem similar or the same across two or more
languages may actually refer to different concepts; or a single term in one
language could be understood to refer to more than one concept which another
language expresses with discrete terms: For example, the English term ‘service’ can refer to different concepts - an organizational unit (such
as ‘Passport Service’ or ‘Emergency Services’) or something that is performed
by one for another (such as ‘a dry cleaning service’ or ‘authentication
service’), whereas discrete terms are used for the discrete concepts in German
(‘Dienst’ or ‘Dienstleistung’ respectively for the two examples above). As the TGF is intended for use anywhere in
the world, it is important to ensure that (ideally) global concepts can be
transposed and translated and thus understood in other languages: we therefore
need to associate an explicit definition with each concept as we do in a
dictionary. The TGF uses a standard structure and methodology to create its
terminology[2] and we recommend that such an approach
should be maintained in any extension of the terminology.
Concepts do not exist in isolation. In
addition to clear definitions and agreed terms, It is the broader understanding
of the relationships between concepts that give them fuller meaning and allow
us to model our world, our business activities, our stakeholders, etc. in a way
that increases the chance that our digital systems are an accurate reflection
of our work. Any conformant community should be able to use a common
terminology without ambiguity and be sure that these terms are used
consistently throughout all work.
v v v
The Solution
Ensure that all stakeholders have a clear,
consistent and common understanding of the key concepts relating to healthcare
in the home and community; how these concepts relate to each other; how they
can be formally modeled; and how such models can be leveraged and integrated
into new and existing information architectures. It is particularly important
that there is a common understanding of the various terms associated with
e-devices and their usage. To this end:
Seek agreement among stakeholders to
establish and maintain an agreed and shared Common Terminology and Reference
Model.
v v v
Linkages
Introduction
to Terminology
A core terminology is proposed below and
any e-Health program should consider this as a basis for its own terminology
and reference model. It should be noted that this glossary is an extension of
the main TGF Core Terminology as set out in the Transformational Government
Framework (TGF) Version 2.0 and those terms should also be used wherever
appropriate.
The TGF does not include a formal ontology
but is sufficiently clear in its concepts, definitions and relationships
between concepts that subsequent ontology development is possible if so
desired.
Each entry below consists of a preferred Term followed by the Definition
(indented). Words in bold within a
definition refer to other terms defined within this core terminology.
Occasionally, a definition is followed by a note to clarify some element of the
definition or term.
e-Device
any piece of equipment that is used for environmental control and patient condition monitoring and
to and from which patient data is transmitted electronically to healthcare
practitioner(s)
e-Health
healthcare practices supported by electronic processes
and communication between practitioners and patients using the Internet or
other ICT networks
Healthcare
the
diagnosis, treatment, and prevention of disease, illness, injury, and
other physical and mental impairments in humans
Note: Healthcare is
delivered by practitioners in medicine, optometry, dentistry, nursing, pharmacy, allied health, and other care providers. It refers
to the work done in providing primary
care, secondary care and home and community care, as well as in public health.
Home
and community care
the many types of healthcare interventions
delivered outside of the primary and
secondary care facilities
Note: It includes the services of professionals
in residential and community settings in support of self care, home care,
long-term care, assisted living, and treatment for substance use disorders and
other types of health and social care services.
Internet
of Things (IoT)
a world where physical objects are seamlessly integrated
into the information network, and where the physical objects can become active
participants in business processes.
Note: Services are available to
interact with these 'smart objects' over the Internet, query and change their
state and any information associated with them, taking into account security
and privacy issues.
Primary
care
the
work of healthcare professionals who act as a first point of consultation for
all patients within a healthcare system
Secondary
care
the
healthcare services provided by medical specialists and other health
professionals who generally do not have first contact with patients
Context
In order for [T1] Digital
Asset Mapping and Management to be effective in aligning healthcare technology
and digital assets with the integrated, non-silo based approach set out in [B3] Transformational Operating Model,
it is essential to have a top-level vision and architecture for future
technology use across the healthcare community.
v v v
The
Problem
Technological
change is more rapid than organizational change and yet healthcare communities
often find themselves locked-in to particular technology solutions. Communities
need to protect themselves against the downside of technology evolution by
developing a strategic approach to IT that guarantees future agility as markets
develop and healthcare priorities change.
Transformational healthcare needs a
strategic IT platform to guarantee future agility as patient and practitioner
priorities change. Such a platform cannot afford to be locked-in to specific
technologies or solutions that prevent or limit such agility.
This
means that an e-Health program should establish a blueprint for open,
community-wide, service-oriented, interoperable IT. Key features of such a
blueprint include:
·
a commitment to the paradigm and principles of Service
Oriented Architecture (SOA) and SOA-based infrastructure, as defined in the OASIS ‘Reference Model
for Service-Oriented Architecture [SOA-RM]. Service-Oriented Architecture must be understood in
its broadest sense – as a paradigm for organising and using capabilities
distributed and managed across different ownership domains. In this sense, SOA
is technology and platform agnostic and thus provides an appropriate foundation
for the technology management framework.
·
modular design, including the realization of discrete care and services that can
perform work on behalf of other parties, underpinned by clear service
descriptions and contracts for any capability that is offered for reuse by
another party;
·
clear ownership and governance for all blueprint
elements;
·
shared services: managing key ICT building blocks as community-wide
resources available as re-usable, shared services - in particular common
patient data sets (e.g. name, address); applications and application interfaces
(e.g. authentication, payments, notifications); and core ICT infrastructure.
·
use of the Internet of
Things to connect to and use e-Devices including standards and common
approaches for management of the connections and security in line with patient
choice and privacy
·
published standards to enable safe exchange of information
between modules (all open, exportable, and based wherever possible on
international standards) and which cover: services; data outcomes; rules; KPIs;
interoperability.
·
a commitment to
enable both privacy and openness: all personal data held securely, and under
the ownership and control of the individual patient; all non-personally
identifiable public data open for reuse and innovation by third parties;
·
tools and
resources: standards, metadata, tools, incentives and business models to
facilitate transition towards the blueprint architecture by stakeholder
organizations.
Such
a blueprint is not something that would typically be implemented in a “big
bang” or by a single IT supplier, but should:
·
provide
an agreed architecture on which healthcare organizations and their suppliers
can converge over time;
·
establish
a multi-level competitive landscape at the platform, services and application
layers.
v v v
The
Solution
TGF programs should therefore work with
stakeholders (including government agencies,
IT suppliers, SMEs and other delivery partners) to establish and
maintain an open, service-oriented, government-wide IT architecture, and to
develop a phased migration plan towards that architecture, which:
·
wherever
possible prefers interoperable, open standards, particularly when these are
well supported in the market-place.
Standards of particular relevance in this context are:
v v v
Linkages
Shifting from
the current set of legacy IT systems and contractual arrangements to a more
integrated, SOA-based approach that supports e-Health in the Home and Community
domain will be a multi-year process of change. That process should be built in
as a core element of the [B10] Roadmap
for Transformation and, in
particular, to work on [B7] Supplier Partnership (which is essential in order to ensure
that new procurements establish requirements and supplier relationships that
help build towards the future vision). And the process will need proactive
governance, as described in [T1] Digital Asset Mapping and Management.
The European Interoperability Framework[EIF] has a useful definition of “open”
in 5.1.1 “Specifications, openness and reuse”.
The TGF Core Pattern [B6] sets out the requirement to use the
Policy Product Matrix to identify all the standards, policies, guidelines etc
which are needed to make sure all aspects of a cross-organization interoperability
problem (political, legal, organizational, semantic, technical,) are managed
effectively. It also advises that the Programme Leadership should undertake a policy gap analysis
through Engagement with Stakeholders,
and then ensure that the accountability and process for developing any missing
Policy Products is embedded within the
Roadmap for Transformation.
Most of the TGF Policy
Product Types are relevant to the e-Health community. Some are very generic to all domains of public
sector activity and require no further explanation in this Profile. The full text of them is available in the
Matrix at https://wiki.oasis-open.org/tgf/Policy%20Products
However some are considered essential
for e-Health programmes and these are shown in full below suitably tailored for
that community.
|
Policy Product Type -
BENEFITS REALIZATION STRATEGY |
|
|
|
Description: The strategy for ensuring that the intended benefits from the
e-Health programme are delivered in practice. |
||
|
Problem Addressed: Benefits Realization |
||
|
Example(s) of current
Policy Product of this type: |
||
|
Notes: See TGF v2.0 Section 7 Benefits Realization |
|
Policy Product Type - TRANSFORMATIONAL OPERATING
MODEL |
|
|
Description: The
strategy for ensuring that the intended benefits from the e-Health programme
are delivered in practice. |
|
|
Problem Addressed: Target Business Operating Model |
|
|
Example(s) of current Policy Product of this
type: |
|
|
Notes: See TGF
Pattern [B3] Transformational Operating Model as amended in this Profile. |
|
|
Policy Product Type - LEGAL AUTHORITY FOR INTER-AGENCY COLLABORATION |
|
|
Description: This represents the
legal basis for inter healthcare agency collaboration, data and information
exchanges and other joint activities. |
|
|
Problem Addressed: An early step in
the Transformation Roadmap for many governments is the identification and
redressing of legal barriers. Very often existing laws and practices prohibit
full inter-agency working, for example by limiting the ability of an agency
to act for tightly prescribed purposes. |
|
|
Example(s) of current Policy Product of this type: None available |
|
|
Notes: National legislation will vary
on this aspect so it will be necessary to consult with Government lawyers to
identify and remove any barriers. |
|
Policy Product Type -
BENEFITS REALIZATION PLAN |
|
|
Description: The plan for delivering the Benefits Realization Strategy for the
e-Health programme. |
|
|
Problem Addressed: Benefits Realization |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF v2.0 Section 7 Benefits Realization |
|
|
Policy Product Type - COLLABORATIVE STAKEHOLDER
ENGAGEMENT MODEL |
|
|
Description: A
model that articulates all of these elements: a map all stakeholders, coupled
with the structures, engagement processes and incentives needed to deliver
full understanding and buy-in to the e-Health programme, plus effective
stakeholder action in support of it. |
|
|
Problem Addressed: Stakeholder Engagement |
|
|
Example(s) of current Policy Product of this
type: |
|
|
Notes: See TGF
Pattern [B5] Stakeholder Collaboration as amended in this Profile. |
|
|
Policy Product Type - COMMON TERMINOLOGY AND REFERENCE MODEL |
|
|
Description: The means by which all stakeholders have a common understanding of
the key concepts involved in the e-Health programme and how they interrelate,
and the common language to describe them. |
|
|
Problem Addressed: Common Language |
|
|
Example(s) of current Policy Product of this type: |
|
|
Notes: See TGF Pattern [B9] Common Terminology and Reference Model and the
e-Health Glossary in this Profile. |
|
|
Policy Product Type - SUPPLIER MANAGEMENT GUIDELINES |
|
|
Description: An e-Health programme
requires effective, partnership-based relationships with suppliers,
particularly suppliers of e-Devices. Supplier Management guidelines set out a
formalized and robust way of managing, monitoring and developing supplier
performance. They focus on the overall relationship with the supplier rather
than the specific relationship around an individual contract. |
|
|
Problem Addressed: Supplier
Management |
|
|
Example(s) of current Policy Product of this type: |
|
|
Notes: See TGF Pattern [B7] Supplier
Partnership |
|
Policy Product Type - BUSINESS PROCESS MODEL |
|
|
Description: A
model that depicts the business processes of an organization or community.
The model typically shows a collection of related, structured activities or
tasks that produce a specific service or product for a particular patient or set
of patients. It often can be visualized with a flowchart as a sequence of
activities. |
|
|
Problem Addressed: Business Processes |
|
|
Example(s) of current Policy Product of this
type: |
|
|
Notes: See TGF
Pattern [T1] Digital Asset and Mapping
Management |
|
|
Policy Product Type -
ACCESSIBILITY POLICY |
|
|
Description: The Policy setting out how to make services available to all
patients, particularly those with disabilities, including visual, auditory,
physical, speech, cognitive, and neurological disabilities. |
|
|
Problem Addressed: Accessibility |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [S4] Channel Management Framework |
|
Policy Product Type -
DIGITAL INCLUSION STRATEGY |
|
|
Description: The strategy for ensuring that all patients can enjoy the
benefits of the e-Health services through digital channels. Typically,
developed in partnership with the private and voluntary sectors, such a
strategy will set out the healthcare community’s approach to addressing the
key access, confidence and motivation barriers to digital engagement. |
|
|
Problem Addressed: Digital inclusion |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [S4] Channel Management Framework |
|
Policy Product Type - INTERMEDIARIES STRATEGY |
|
|
Description: The strategy for the involvement of private and voluntary sector
intermediaries in the delivery of e-Health services. |
|
|
Problem Addressed: Use of Intermediaries |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [S4] Channel Management Framework |
|
|
Policy Product Type - PRIVACY AND DATA SHARING
POLICY |
|
|
Description: The government or healthcare community policy for the sharing of
data between practitioners, whilst at the same time respecting the needs for
data privacy of patients’ records. |
|
|
Problem Addressed: Data Privacy and Sharing |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [S3] Identity and Privacy Management |
|
|
Policy Product Type -
ACCCESSIBILITY GUIDELINES |
|
|
Description: Guidelines setting out how to make content available to all
patients, particularly those with disabilities, including visual, auditory,
physical, speech, cognitive, and neurological disabilities. |
|
|
Problem Addressed: Accessibility |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [S4] Channel Management Framework |
|
Policy Product Type - COMMON DATA STANDARDS |
|
|
Description: A
set of the most common data items in use by the healthcare community. For
each item there should be a full definition together with any appropriate
formatting and coding. |
|
|
Problem Addressed: Data Management |
|
|
Example(s) of current Policy Product of this
type: |
|
|
Notes: See TGF
Pattern [T2] Technology Development and Management as amended in this
Profile. |
|
|
Policy Product Type - ACCESSIBILITY STANDARDS |
|
Description: A set of guidelines
setting out the standards to be used to ensure maximum inclusivity of
e-Health services. |
|
Problem Addressed: Accessibility |
|
Example(s) of current Policy Product of this type: |
|
Notes: See TGF Pattern [T2]
Technology Development and Management |
|
Policy Product Type -
SERVICE DEFINITION FOR ONE STOP SERVICES |
|
|
Description: e-Health programmes typically involve a shift from silo-based
delivery towards an integrated, multi-channel, patient centric service
delivery platform offering “one stop” service delivery and self-help for healthcare.
Developing such a service requires a clear end-to-end service definition: a
comprehensive documentation describing the product which will be offered to
all patients. |
|
|
Problem Addressed: One stop service delivery |
|
|
Example(s) of current
Policy Product of this type: None available |
|
|
Notes: See TGF Pattern [B3] Transformational Operating Model as amended in
this Profile. |
|
Policy Product Type -
SINGLE SIGN-ON ARCHITECTURE |
|
|
Description: The architecture that sets out how patients can access all the services
and self help facilities they require through a single sign-on facility. |
|
|
Problem Addressed: Single sign-on |
|
|
Example(s) of current
Policy Product of this type: None available |
|
|
Notes: See TGF Pattern [T2] Technology Development and Management as amended
in this Profile. |
|
|
Policy Product Type - INFORMATION SECURITY
STRATEGY |
|
|
Description: The policy for the security of the healthcare communities’
information assets. This should cover not only the hard copies of documents
and other paper materials but also web pages and online services and the
information captured by them. |
|
|
Problem Addressed: Information Security |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [T1] Digital Assets Mapping and Management as
amended in this profile. |
|
|
Policy Product Type - OPEN STANDARDS PROCEDURES |
|
|
Description: A set of procedures that allow (the need for) open standards to
be raised and lead into a process for filtering requests, defining the need,
selecting or building them, adopting them and managing them through to
retirement. |
|
|
Problem Addressed: Use of open standards |
|
|
Example(s) of current
Policy Product of this type: Australian Government National Standards Framework -
http://www.finance.gov.au/publications/national-standards-framework/index.html |
|
|
Notes: See TGF Pattern [T2] Technology Development and Management as
amended in this Profile. |
|
|
Policy Product Type -
APPLICATIONS ARCHITECTURE |
|
|
Description: An architecture that sets out how a suite of applications are
being used by the e-Health programme to create a composite application that
is scalable, reliable, available and manageable. It is specified on the basis
of business and functional requirements. |
|
|
Problem Addressed: IT Management |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [T2] Technology Development and Management as
amended in this Profile. |
|
Policy Product Type -
NETWORK ARCHITECTURE |
|
|
Description: An architecture showing the design of the communications network
for the e-Health programme. Usually the Internet would be used as the network
but if an alternative is used then there is the need for the specification of the network's
physical components and their functional organization and configuration, its
operational principles and procedures, as well as data formats used in its
operation. |
|
|
Problem Addressed: Network Management |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [T2] Technology Development and Management as
amended in this Profile. |
|
|
Policy Product Type -
SECURITY ARCHITECTURE |
|
|
Description: An architecture supporting the development of security for
e-Health services by providing illustrations and guidance on how a security
framework and related documents would be applied for particular illustrative
on-line business scenarios at various levels of trust with currently
available technologies and processes. |
|
|
Problem Addressed: Security Management |
|
|
Example(s) of current
Policy Product of this type: |
|
|
Notes: See TGF Pattern [T2] Technology Development and Management as
amended in this Profile. |
Appendix A Acknowledgments
The
following individuals have participated in the creation of this specification
and are gratefully acknowledged:
Participants:
Hans A
Kielland Aanesen, Individual Member
Oliver
Bell, Microsoft Corporation
John
Borras, Individual Member
Peter
F Brown, Individual Member
Nig
Greenaway, Fujitsu Ltd
Jenny
Huang, ifOSS Foundation
Gershon
Janssen, Individual Member
Chris
Parker, CS Transform Ltd
Colin
Wallis, New Zealand Government
Joe
Wheeler, MTG Management Consultants, LLC
Mark
Woodward, Individual Member
In
addition we acknowledge the contributions from the OASIS BCM and CAM Technical
Committees.
Appendix B Revision History
|
Revision |
Date |
Editor(s) |
Changes
Made |
|
01 |
7th June 2013 |
John Borras Hans A.
Kielland Aanesen |
Initial draft |
|
02 |
23rd January 2014 |
John Borras Hans A.
Kielland Aanesen |
Revisions to bring the CN into line with the new TGF v2.0 |
|
03 |
15th March 2014 |
Nig Greenaway |
Revised to reference the Internet of Things and to strengthen patient choice and privacy considerations. |
|
04 |
22 April 2014 |
John Borras Nig Greenaway |
Changes to Figs 3 and 4 to reflect Healthcare services. |