PresentationPDF Available

Traditional Air-DivingTables and DIVE Version 3_11 (Synopsis & update)

  • June 2022
DOI:10.13140/RG.2.2.26855.11684
  • Conference: TEC 4.0: update ETH / IL
Authors:
Miri Rosenblat at Tel Aviv University
Miri Rosenblat
Nurit Vered at Technion - Israel Institute of Technology
Nurit Vered
Download file PDF
Read file
Download citation

Abstract

Traditional Air-DivingTables and DIVE Version 3_11: Synopsis & update per 06/2022: as an extended quality-assurance assessment (or PoC) for the adaptivity, accuracy and usefulness of the DIVE Versions 3 framework there are now publicly available documents on RESEARCHGATE with in-depth comparisons along established and proven air-diving tables from the following organisations: United States Navy, Diving Manual Revision 7 [4] DCIEM Air Diving Manual [5] MT 92 Air Diving Tables [6] ZH-86 Air Diving Tables [7]
Content uploaded by Miri Rosenblat
Author content
All content in this area was uploaded by Miri Rosenblat on May 25, 2022
Content may be subject to copyright.
1
Traditional Air-DivingTables
and DIVE Version 3_11
(Synopsis & update)
Miri Rosenblat, TAU
Nurit Vered, Technion Haifa
01.06.2022
@ TEC 4.0: update; ETH / IL
2
Synopsis & Fact Sheet:
update per 06/2022
for DIVE Version 3_11
Miri Rosenblat, TAU
Nurit Vered, Technion Haifa
01.06.2022
@ TEC 4.0: update; ETH / IL
3
Synopsis & Fact Sheet:
update per 06/2022
for DIVE Version 3_11
DOI of previous update document from 11/2021:
https://dx.doi.org/10.13140/RG.2.2.17024.56326
DIVE Versions 3:
the desktop decompression suite as a free-/shareware from
[1] ; contents of this update document:
What is new per 06/2022?
References
Bonus material for DIVE Version 3_11
4
DIVE: the desktop decompression suite as a
free-/shareware from [1]; Contents:
What is new per 06/2022?
As an extended quality-assurance assessment (or PoC) for
the adaptivity, accuracy and usefulness of the DIVE Versions 3
framework there are now publicly available documents on
RESEARCHGATE with in-depth comparisons along established and
proven air-diving tables from the following organisations:
United States Navy, Diving Manual Revision 7 [4]
DCIEM Air Diving Manual [5]
MT 92 Air Diving Tables [6]
ZH-86 Air Diving Tables [7]
The documents [4 7] describing the algebraic equations to achieve the
mapping to each of these tables as well with the comparisons of the
original tables with DIVE 3_11 for selected air-diving schedules.
5
DIVE: the desktop decompression suite as a
free-/shareware from [1]; Contents:
What is new per 06/2022?
DIVE 3_11 has now, since 05/2022, a couple of minor
bug-fixes and new modules / coefficient sets:
the VVal-79 coefficients for U.S.N. Rev. 7 calculations [4]
a linear DCIEM simulation [5]
pls. cf. slide # 6 with a list of all topics.
The older “Synopsis & Fact Sheet” [2] and the old “PoC”, the “Proof-of-
Concept” [3] and all the references therein are thus still valid!
DIVE 3_11 is already tested for MS-Windows 11®
The addressed tables and the attached references [4] [8],
pls. cf. nxt. slide.
6
Addressed Topics,
i.e.: the
mapping to the following
Diving Tables:
Related Documentation on
RESEARCHGATE,
DOI:
pls. cf.
slide
# 7
& 8 for
Ref.:
U.S.N. Rev. 7, Air 10.13140/RG.2.2.31593.36961 [4]
DCIEM, Air 10.13140/RG.2.2.27420.36480 [5]
MT92, Air 10.13140/RG.2.2.34271.38567 [6]
ZH-86, Air 10.13140/RG.2.2.34235.13609 [7]
ZH-L12, one experimental
Heliox Jump Dive 10.13140/RG.2.2.24608.20482/1 [8]
7
References (1):
[1] the SubMarineConsulting Group (1991) DIVE:
a desktop decompression suite for MS Windows®
[2] Salm, A. (02/2021):
https://www.researchgate.net/publication/349504991_Synopsis_Fact_Sheet_
PoC_for_DIVE_Proof_of_Concept_for_a_free-
shareware_decompression_suite
[3] Rosenblat, Miri; Vered, Nurit (07/2021):
PoC for DIVE 3_10, DOI:
https://dx.doi.org/10.13140/RG.2.2.28123.69924
[4] Salm, A. (05/2022) Recovery of selected U.S.N. Rev. 7 air-diving
schedules via a decompression shareware.
DOI: 10.13140/RG.2.2.31593.36961
[5] Salm, A. (03/2022) The mapping of the DCIEM Air-diving table to a
standard Haldane- / Workman- / Schreiner-algorithm.
DOI: 10.13140/RG.2.2.27420.36480
8
References (2):
[6] Salm, A. (2021) The mapping of a french air diving table
(MT92) to a standard
Haldane- / Workman- / Schreiner-algorithm
DOI: 10.13140/RG.2.2.34271.38567
[7] Salm, A. (01/2022) Recovery of selected ZH-86 air-diving schedules via
a decompression shareware.
DOI: 10.13140/RG.2.2.34235.13609
[8] Salm, A. (2020) ZH-L 12 : Validation of an old (1982) experimental Heliox
jump dive (30 m, 120 min)
DOI: 10.13140/RG.2.2.24608.20482/1
9
Bonus Material:
Source for
DIVE Version 3_11
The INFO FLYER:
https://www.divetable.info/DIVE_V3/V3e/FlyerV3.pdf
Download of complete archive, free of charge:
DIVE V 3_11
https://www.divetable.info/DIVE_V3/V3e/index.htm
and the manual
https://www.divetable.info/DIVE_V3/V3e/DOXV3_0.pdf
DIVE V 3_11 is not compatible with all older versions since
the ASE (asymptotic standard errors) for the P(DCS)
calculations have been adapted.
10
„Alive & kickin‘ …“ since 1991
continuous development after latest news from
Diving & Hyperbaric Medicine (DHM Journal); and:
ASM UHMS (annual scientific meeting of the UHMS)
tested for MS-Windows 1
the latest DIVE Version with the new features / modules for beta
testing is always staged there:
https://www.divetable.info/beta/index_e.htm
along with information on
production date
size in bytes
new features
• bugs fixed
checksums for verifying the download.
(Microsoft 64 Bit Windows 7® or higher required)
Continuous
development of DIVE:
ResearchGate has not been able to resolve any citations for this publication.
Recovery of selected U.S.N. Rev. 7 air-diving schedules via a decompression shareware
Presentation
Full-text available
  • May 2022
The United States Navy air diving tables from the U.S.N. Diving Manual Revision 7 [1] are widespread in military & professional use all over the world [2]. In fact, the precursor editions of these air-diving tables have or had been adopted by nearly all major civilian diver-training agencies like PADI, NAUI, SSI and the like. We selected several air diving schedules for simple, single box-profiles for straightforward comparison with a desktop decompression software [3], [4] and all the references therein, where the internal structure has been adapted from a ZH-L 16 algorithm from 1983 to simulate an U.S.N. type a la Workman-Thalmann from 2008. The focus here was on the TTS (*), the time-to-surface in minutes. Conclusion: the mapping of the ZH-L16 a-& b parameters to the USN M 0 , ΔM parameters including the transformation from a metric to an imperial system and vice-versa is possible, provided the required desktop decompression suite allows for enough flexibility.
View
The mapping of the DCIEM Air-diving table to a standard Haldane-/Workman-/Schreiner-algorithm
Presentation
Full-text available
  • Mar 2022
The mapping of the DCIEM Air-diving table to a standard Haldane-/Workman-/Schreiner-algorithm Abstract: As we demonstrated recently ([1] and all the references therein) selected air-diving schedules from the DCIEM framework ([2] & [3]) could be recovered using a simple desktop decompression shareware with only one additional parameter: a conservatism factor of ca. 0.9 +/- 0.05. On just these grounds we tried to map the DCIEM AIR tables [2] via a simple algebraic transformation directly to a standard decompression algorithm based on blood perfusion with a linear relationship between calculated compartment inert gas overpressures and the ambient pressure and implement this mapping into a shareware so that the DCIEM table entries could be calculated with any other desktop decompression software
View
Recovery of selected ZH-86 air-diving schedules via a decompression shareware
Presentation
Full-text available
  • Jan 2022
The ZH-86 air diving tables and A.A. Bühlmanns underlying ZH-L16 algorithms are considered "gold standard" within the recreational diving community, thus they are widely used in decompression planning software and dive computers. In order to achieve a transparent comparability between the various methods of calculating a diving schedule and thus get insight into its theoretical risk or inherent safety, we compiled a list of key-parameters by an in-depth comparison of 8 paradigms at the borders of the printed ZH-86 tables.
View
The mapping of a french air diving table (MT92) to a standard Haldane- / Workman- / Schreiner-algorithm
Presentation
Full-text available
  • Feb 2021
Abstract: The published french air diving tables MT92 ([1] & [2]) could be mapped via a simple algebraic transformation directly to a standard decompression algorithm based on blood perfusion with a linear relationship between calculated compartment inert gas overpressures and the ambient pressure. With this mapping the MT92 table entries could be calculated with any desktop decompression software and thus compared to other published air diving tables like DCIEM, USN & NDTT [5]. As well the MT92 framework could be extended to other than printed: or greater bottom depths or longer bottom times higher pO2 during decompression modified decompression stages if operational requirements need an adaption of the published tables.
View
ZH-L 12 : Validation of an old (1982) experimental Heliox jump dive (30 m, 120 min)
Presentation
Full-text available
  • Oct 2020
ZH-L12: Validation of an old (1982) experimental Heliox jump dive (30 m, 120 min): Question: could we verify the old ZH-L12 decompression profile with a topical desktop deco software?
View
DIVE: a desktop decompression suite for MS Windows®
  • Jan 1991
  • The Submarineconsulting Group
the SubMarineConsulting Group (1991) DIVE: a desktop decompression suite for MS Windows®