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Lloyds Register updated PowerPoint template style Marine default

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Title: Lloyds Register updated PowerPoint template style Marine default

1
Harmonising onboard information
Brian Sherwood JonesJonathan Earthy
2
Outline of talk

e-nav as a harmonisation process
Definitions and concepts
Plotting a route ahead
The harmonised zone
Some initial barriers to starting harmonisation
Organisational concerns role of the OOW, the
race for usability
The formal technical context what to
standardise?
Harmonising onboard information through-life
Basis for harmonisation
Required approach
Scope and content of SCC notation

3
Definitions and concepts

e-Navigation is the harmonised collection,
integration, exchange, presentation and analysis
of maritime information onboard and ashore by
electronic means to enhance berth to berth
navigation and related services, for safety and
security at sea and protection of the marine
environment.
The concept of e-Navigation was proposed by IMO
Member States in 2006 as a process for the
harmonisation, collection, integration, exchange
and presentation of maritime information.
e-Navigation is a process that seeks to reassess
(these) roles and ensure that mariners and shore
operators are actively engaged in the process of
navigation and not just monitoring it.

4
Plotting a route ahead
5
Can we avoid this please?
6
The harmonised zone
7
External influences
8
Organisational context
9
Formal technical context
10
Some initial barriers alarms and lack of
usability assurance
11
The race for usability
12
What is the role of the OOW / Bridge Team?
13
What to standardise when there is innovation?
14
Guidance for harmonisation
15
Lack of harmonisation onboard now
16
Consoles
17
Dimming
18
Integration work. Crew fixes gap between design
and operation
19
Impact on night vision and safe
watchkeeping(Sachdeva)
Does glow from the alarm display panels,
indicators and visual display units affect your
night vision and safe watch ability?
20
More serious integration work
21
Usability issues for equipment design

Type approval and usability/ergonomics IEC 60945
and non-testing.
SOLAS V/15, Bridge Resource Management vs. One
Man Bridge Operation and head-down mode.
Incident analysis mode awareness, task
performance, familiarisation.
Basic ergonomics consoles, layout. Try to
improve bridge design.

22
Objectives of SCC Notation

Ship Control Centre Navigation bridge
operational functions as appropriate e.g. OSV,
PSSC, stern-acting tankers, office, cargo
control.
Less prescriptive more goal-setting for bridge
design and equipment arrangement to allow for
innovation.
More user-centred and responsive to SOLAS V/15.
Address the bridge system, and build links
between the technical system and the human
element.
New approach to integrated systems.

23
Scope of SCC
SCC
24
Why SCC now? - baseline established

Risk of collision, grounding, stranding continues
to be significant. Automated bridges bring their
own problems.
IACS discussions on approach to SOLAS V/15
concluded. Clarification of visibility
requirements from SOLAS V/22.
SN.1/Circ.265 Guidelines on the application of
SOLAS Regulation V/15 to INS, IBS and bridge
design published.
No prospect of useful IMO Performance Standards
for INS, IBS.
Updated ISO 8468 published. Developments in IEC
standards inc. 62288.

25
Need to allow for innovation
26
Balance to be found

Enough guidance to be useful but without being
too prescriptive.
Use goals/risks/principles to allow for
innovation but be specific enough to allow for
limited capabilities in some sectors.
Use by mainstream plan approval surveyors.
An operability case is new.
Use of process requirements is new.
Through life linkages.

27
Technical background - usability

ATOMOS I - IV
ISO 17894 (now developed to Dependable Systems
Review).
BRM guidelines SN.1/Circ.265, ISO8468, IEC62288.
MTO Sea project.
Alarm design and management (Alert concept).

28
Technical background - dependability
Requirements of ISO 17894

The system shall be demonstrably suitable for
the user and the given task in a particular
context of use.
It shall deliver correct, timely, sufficient and
unambiguous services to its users and other
systems.
The components of the system shall perform
correctly throughout the systems lifecycle.
Typically, isolated attempts to achieve this
occur in safety, human element, integration,
documentation and quality management.

29
Technical background dependability
30
Structure and content - 1

1. General
2. Plans and documentation
Yard
Bridge integrator
Operator documentation
3. Bridge functions
4. Bridge environment
Movement, consoles, chairs
Noise, vibration, lighting,
Interior, safety, stowage
Visibility

31
Structure and content - 2

5. Bridge systems and equipment dependability
6. Bridge systems and equipment usability
Controls
Displays
Alarms
7. Primary bridge functions Navigation
8. Additional bridge functions
9. Additional bridge functions - Offshore
support
10. Additional bridge functions - Double acting
ships

32
Structure and content - 3

11. Additional bridge functions - Rescue
12. Additional bridge functions - Fire fighting
13. Additional bridge functions Passenger
safety
14. Additional bridge functions
Office/administration
15. Testing, trials and surveys

33
Operating philosophy

Roles and responsibilities of the bridge team and
pilot under all operational conditions.
Including
task assignments, transfer of control,
transitional arrangements when operational
conditions change,
cross-checking and supervision, use of trainees,
response to alarms, operation under failure
conditions.

34
In summary

Address the real risks
Allow for innovation
More user-centred approach
Allow for range of operational functions in SCC
Based on long-standing research and standards
development.

35
Thank you, any questions?
For more information, please contact Lloyds
Register 71 Fenchurch Street London, EC3M 4BS T
44 (0)207 423 2304E jonathan.earthy_at_lr.org
The Lloyds Register Group works to enhance
safety and approve assets and systems at sea, on
land and in the air because life matters.
36
Charts and radar screen commerce and usability
37
NMRI INT-NAV (Fukuto et al)
38
NMRI INT-NAV imagery (from earlier installation)
39
Information requirements - Yard

GA, description
Bridge drawings
Workstations
Visibility, windows
Lighting, ventilation, heating
Block diagrams
Equipment list
Dependability information

40
Information provision and assurance

GA, description
Bridge drawings
Workstations
Visibility, windows
Lighting, ventilation, heating
Block diagrams
Equipment list

Restrictions on intended operation
Bridge functions, operating philosophy
Competency for personnel involved in
developing, maintaining, using system
Quality system
Integration and test plans
Requirements spec

Block diagram
Operating manuals
Operating philosophy
Training requirements
Familiarisation requirements

SN.1/Circ. 265 evidence for SOLAS V/15 (BRM)
Evidence that tasks have been considered in the
design (including visibility)
Usability assessment
Life cycle documentation, records
Evidence of dependability

41
Testing, trials and survey

15.1 General
15.1.1 Any uncertainty regarding achievement of
safe and effective operation is to be resolved to
the satisfaction of the surveyor by testing with
representative users.
15.1.2 The system is to be surveyed through life
at periodical surveys. Information on alterations
and amendments is to be in accordance with Part
6, Chapter 1, 1.4 as appropriate.

42
Operator documentation