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Page 3: Finding HMAS Sydney

Summary

This story is about Australian science, and the contribution that two Australian scientists made to the search for HSK Kormoran and HMAS Sydney II.

Working in collaboration with the Finding Sydney Foundation (FSF) from 2001, Kim Kirsner and John Dunn identified the position of HSK Kormoran within 2.7 nautical miles. (Kirsner & Dunn, 2004). They also defined appropriate search boxes for both Kormoran and Sydney in 2005.

The material was published in FSF submissions to the Commonwealth, the states, the RAN, and corporate and private donors during 2005, 2006 and early 2007.

In this account Kirsner and Dunn outline the steps used to achieve these results. The procedure is objective, quantitative, and transparent, and it can therefore be applied to other search projects.

The confidence distribution contours on the following page was the final step in a 13-year program to define the location of Kormoran.

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26° South

26° 30’ South

111° East

Position of Kormoran established in 2008

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Kormoran was a German raider, heavily armed for close range combat with lightly armed merchant vessels but disguised as an allied merchant ship.

Kormoran left Germany on December 23rd 1940, and sank eleven merchant ships prior to her engagement with Sydney. Kormoran was steaming north along the coast of Western Australia when she sighted Sydney, and turned west toward to avoid combat.

HSK Kormoran

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Sydney was armed and equipped for long range combat but with little or no advantage over Kormoran at the range at which the battle unfolded.

Sydney was en route from Sunda Strait to Fremantle when contact was made with Kormoran. Sydney followed and gradually closed in on Kormoran until, at a range of less than one nautical mile, Kormoran opened fire and both vessels were destroyed.

HMAS Sydney II

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In 1991 Mike McCarthy of the West Australian Maritime Museum and Kim Kirsner of the University of Western Australia coordinated a workshop to determine the most likely area for Kormoran.

The keynote speakers were oceanographers or search and rescue experts. Their analyses converged on the area supported by the Kormoran survivors, near 26° South 111° East

Oceanographic approaches cannot be used to define a precise site (e.g., Pearce, 1991); uncertainty in the direction and velocity of current and wind is too great.

Despite the fact that the oceanographic evidence provided no support for a wreck near the Abrolhos Islands, more than 200 nautical miles from the site of the wrecks, the Parliamentary Inquiry (2001) failed to reject map dowsing, oral history or navigation-based claims for a search near the Abrolhos, and the RAN subsequently implemented extensive searches off the Islands

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111° East

26° South

Steedman & McCormack (1991)

Oceanographers

Hughes (1991) Search and Rescue

Position of Kormoran established in 2008

Penrose and Klaka (1991)

Oceanographers

The chart shows the search areas recommended by the professional Oceanographers and Search and Rescue experts at the1991 Oceanography Workshop.

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Sources of information for wreck-hunting

The variety of evidence available for wreck-hunting is daunting. Shipwrecks typically produce some or all of the following sources of information:

• First hand accounts by the Captain, the officers, and the crew,

• Navigational charts and records

• Signal records

• Lifeboats, Life-rafts, Life-belts, and Flotsam and Jetsam where hind-casting the position of the loss depends on an understanding of oceanography including the action of wind and current

• Accounts from observers on other vessels or the shore

• Second hand reviews by naval administrators and courts

• Historical descriptions and analyses

• Databases used for Anti-Submarine Warfare, a point highlighted for the first author by research staff at the Woods Hole Oceanographic Institute in Massachusetts during a visit in 1993

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Role of Cognitive Science

Cognitive Science comes into play when memory and decision making issues influence interpretation. The contrast between the reports from the Kormoran crew and the alleged observers on the coast illustrates the point.

The survivor’s accounts were elicited after an interval of 7-21 days; They were mostly working in their domains of expertise (e.g., navigation); the information they provided was critical to survival, and, significantly, the information was elicited by domain experts.

By contrast, the oral history reports involved remote events (> 40 years); their relevance to the loss of Sydney was uncertain; the reports ranged along 200 nm of coastline; and the reports included everything from ‘acrid smoke’ to ‘sightings’ of the vessels to ‘reflections’ from the clouds.

Cognitive Science is also relevant when a problem involves numerous sources of information, or ‘constraints’, and integration is required.

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Sources of expertise for wreck-hunting

Navigation records often provide the best source of information for wreck-hunting. Bob Ballard’s achievements (Ballard, 2008) are substantially based on the successful use of navigation information. David Mearns too has used his expertise in this domain to good effect.

In the case of Kormoran however, critical information survived the battle and a week at sea in the heads of the crew - the domain experts - and memory and forgetting were critical. In other cases, oceanography, history or oral history might be important.

Because most of the information in the archives compiled in 1941 depended on the recollection of the Kormoran survivors, Kirsner and Dunn’s expertise was appropriate. Henceforth we will refer to this material as the Kormoran Database.

The in-water search depended on different skills, and we acknowledge Mearn’s expertise in this domain.

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Science

Science thrives on critical review. Most of the articles published by scientists are subjected to rigorous and occasionally brutal peer review. The system is not of course fool-proof; errors occur, and biases pose a constant hazard.

Working together and independently, Kim Kirsner and John Dunn have published more than 150 refereed articles and chapters in the area of Cognitive Science. More importantly perhaps, we have attracted a combined total of approximately 15 grants from the Australian Research Council, another source of critical review.

Kim Kirsner is an elected Fellow of the Australian Academy of Social Science.

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5. Cognitive Science

Alan Puckett

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The 1941 interviews and interrogations constituted the primary source. Why?

First, they were reported in November and December 1941, months or possibly years prior to the preparation of the diaries and coded dictionaries.

Second, as survival was critical following disembarkation from Kormoran, it may be assumed that critical information was distributed among the five lifeboat crews, and not the ‘property’ of Detmers alone. This information constitutes ‘expert knowledge’ as distinct from ‘memory’ in the traditional sense (See Speelman & Kirsner, 2005).

Third, unless the reports associated with Detmers’ coded dictionary involve different dot patterns with the same information – and there is no suggestion that this is the case - it may be assumed that their reliability reflects only the dot copying skills of Detmers or Detmers’ secretary

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What is in the Kormoran Database?

The Database included the following reports based on interrogations with survivors conducted between November 26th and December 10th 1941

• Eighteen reports referred to 26° S 111° E. Ten further reports referred to either 26° S or 111° E.

• Six reports referred to a distance from land, the values given being 60 nm (1), 120 nm (3) and 150 nm (2). 120 nm was selected because it was the most frequent.

• Two reports stated that one lifeboat sailed 150 nm or 153 nm NE from the point of disembarkation from Kormoran to the coast

• One report stated that the battle occurred 160 nm SW of NW Cape. NW Cape and Cape Cuvier provide an obvious point of confusion, and Cape Cuvier was probably the target for all five lifeboats.

• Four reports referred to 130 nm SW of Shark Bay.

• Fourteen reports referred to 26°34’, 26° 32’, 26° 31’ or 26° 30’ S 111° E.

Reports involving singletons and outliers were discarded. The geographical depictions in Section 5.3 Cognitive Science: Selection of Source Arguments include constraints derived from other sources

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Position Probably in position to

know

Probably not in

position to know

Total

26° S 111° E 14 5 19coast 120 nm 3 2 526° 32' S 111° E 4 0 426° 34' S 111° E 3 0 327° S 111° E 2 0 226° 30' S 111° E 1 0 1160 nm SW of NW Cape 1 1coast 150 1 125° 34' S 111° E 1 125° S 111° E 1 1Shark Bay 130 nm 1 126° S 111° 40' E 1 126° S 111° 22' E 1 1Fremantle 100 SW 1 1Perth 130 nm W 1 1Fremantle 20 nm SW 1 1Fremantle 120 nm SW 1 1Land 60 nm 1 1

Concentration of reports involving 26° South 111° East [From Kirsner, Norman & Dunn, 2003]

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0

5

10

15

20

26° S 111° E

26 32 111

27 111

coast 150

25 111

26 111-40

F 100 SW

F 20 sw

land 60

Position toknow uncertain

Position toknow

The frequency distribution is consistent with the assumption that the Kormoran database consists of random errors around a single position [From Kirsner, Norman & Dunn, 2003, Finding Sydney Foundation, 2005]

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Zipf's Law

Do the reports reflect one carefully rehearsed ‘story’, as many critics claimed, or do they reflect ignorance, as if no-one had any idea at all, or do they reflect expert knowledge, about location, accompanied by random error?

Zipf's law states that given some corpus of natural language utterances (or memory reports), the frequency of any word is inversely proportional to its rank in the frequency table.

The most frequent word will occur approximately twice as often as the second most frequent word, which occurs twice as often as the fourth most frequent word, etc.

Similar relationships occur in many other rankings, including memory reports. In the memory case, it is assumed that the spread of the reports reflects random error.

The rankings are consistent with the assumption that the database is a reliable form of evidence; it does not “prove” that it is reliable.

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Log Rank

Log

Fre

quen

cy

One frequent report – like ‘26° S 111° E’

Many infrequent reports - like ‘120 nm SW of Fremantle’

Use of Zipf’s Law to assess reliability?

Black triangles are reports from

Kormoran survivors

Red triangles are reports from The “War of the ghosts’, a memory study by Bartlett (1932)

Grey circles are from a

simulation based on

Kormoran survivors’

reports

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Comment

The data conform to Zipf's law to the extent that the plot is linear in Log-Log coordinates. The function relating Log Frequency and Log Rank is approximately linear (see previous page), and the results are, therefore, consistent with the assumption that the survivors were telling the truth.

The results do not “prove” that the survivors were telling the truth; science rarely works like that.

Further support for the validity of the reports is present in the fact that Bunjes, an anti-Nazi, provided three different types of information that produced approximately the same solution.

More evidence, if more evidence was required, came from the extra-ordinary number of survivors who pointed to 26° South 111° East. Many of the crew were ‘in a position to know’, and this knowledge was critical to survival for the crew in the lifeboats.

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Comment

The following analysis of source selection is a summary. The detailed arguments will be published elsewhere.

Mathematical integration of the sources described below produced Confidence Distribution Contours or a ‘heat map’, where probability follows ‘heat’, and the central position is 26° 04’ South 111° 02’ East, just 2.7 nautical miles from the position of the wreck of Kormoran (Kirsner & Dunn, 2004).

Further collaboration involving the authors and FSF Director Bob King produced appropriate search boxes for Kormoran and Sydney, as depicted in Finding Sydney Foundation (2005).

The FSF adopted Kirsner and Dunn’s predictions for the positions and search boxes of both wrecks, and used the arguments and search boxes in numerous presentations to the Commonwealth, the States, the RAN and corporate and private donors during 2005, 2006 and 2007.

Confidence distribution contours

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Constraint 1

Reports referring to 26° South 111° East.

Reports that referred to 26° South or 111° East were included under this constraint

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Constraint 2

Reports that one life-boat sailed ≈ 150 nm NE from Kormoran to the coast (2 reports)

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Constraint 3

Reports that referred to 120 nm from land

Six reports referred to 60 nm (1), 120 n (3) or 150 nm (2) as the distance from land.

120 nm provided the best fit with the other constraints

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Constraint 4

Report that battle occurred “160 nm SW of NW Cape” - however assume that the referent was Cape Cuvier instead of NW Cape

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Constraint 5

Reports that battle occurred “130 nm South-West of Shark Bay”

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Constraint 6

26° 30’ S 111° E

Reports from Detmers referred to 26°34’, 26° 32’S, 26° 31’ and 26° 30’ S and 111° E

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Constraint 7

Report that QQ signal from Kormoran referred to ≈ 26° S 111° 15 E

Longitude was included in the analysis, and alternative latitudes were tested to determine the best fit with the balance of the sources.

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Constraint 8

Report by Detmers that Kormoran would (have been) off Shark Bay four hours after contact with Sydney

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Constraint 9

Circle of Equal Distance for two life-rafts reported by Dunn and Kirsner (2001)

The analysis was originally implemented to test the claims advanced by Warren Whittaker, Glenys McDonald, David McDonald and others - that the action took place off the Abrolhos Islands.

The analysis was mathematical and involved no assumptions about wind or current.

Given equal velocity for 84 and 107 hours for two life-rafts, the circle defined the range of positions from which they could have originated?

The circle of Equal Distance passed within 2 nm of the wreck of Kormoran

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Summary of Constraints

Integration of these reports involved a mathematical decision model that gave equal weighting to all nine sources

An alternative analysis involving weighting of the individual sources was not implemented.

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Independent Review: Issues from Kirsner and Dunn (2004) that attracted comment from Mearns in debate among members of the Technical Search Committee in 2004/5

• The contrast between the stability and precision of the interrogation and diary evidence attributed to Detmers. The diary evidence is clear about location but not time, whereas the reverse applies to the interrogation evidence.

• The uncertainty associated with the latitude of the QQQQ signal, and its inclusion or exclusion from our active set of constraints

• The reliability of the information provided by Meyer, Bunjes, Linke and other crew

• The procedure used by us to determine “Error of Fit” for the Confidence Distribution Contours or Heat Map (See Email from Mearns to the author, December 7th, 2004)

• The contribution of oceanography to the solution. Mearns criticised the use of Oceanography by Kirsner and Dunn (1998), although he later relied on Oceanographic evidence to explain the focus of his in-water search plan

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Kirsner and Dunn (1998)

Predicted Position given as, “Kormoran sank a few miles to the north of “ 26 °15’ South 111° East.

Error (1998) = Distance between Predicted and Observed

≤ 11 nm

Kirsner & Dunn (1998) was submitted to the Ed Punchard-led HMAS Sydney Foundation Trust and the Parliamentary Inquiry in 1998. The Trust used our arguments as the starting point for a search plan. The search circle tabled at that time included the wreck of Kormoran.

The paper published by Kirsner and Dunn (1998) formed part of our journey. However, the paper was not recommended to the FSF by the authors, or adopted or even re-distributed by the Foundation.

FSF / Mearns (2008)

Observed position of Kormoran given as 26° 06’ South 111° 04’ East

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Context

Between 1993 and 2005, the search agenda was dominated by map dowsing, navigation and oral history claims, and the searches implemented by the RAN, the RAAF and private companies concentrated on the Abrolhos Islands, 200 nm from the wrecks.

Prior to 2005, three groups supported a search in the vicinity of the wrecks, near 26° South 111° East; the Ed Punchard-led HMAS Sydney Foundation Trust between 1996 and 2001; the Trust’s successor, the Ted-Graham led-Finding Sydney Foundation (2001-2008), and Olson, Hore, Goldsmith and Vickridge (2001).

The appeal of the Abrolhos Island case to the RAN appears to have been based on a desire to explain the loss of Sydney by treachery on the part of the Kormoran crew. We accept the argument advanced by Tom Frame (1991), that the answer to that question is probably ‘unknowable’.

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Confidence Distribution Contours or ‘Heat Map’

In 2004 a mathematical decision model was applied to the Source Arguments or Constraints summarised above.

The heat map was the product of that process.

Kirsner & Dunn (2004): Cognitive Reconstruction with mathematical decision model

The closest term to integration in the world of navigation is triangulation. We used mathematical integration to construct the Confidence Distribution Contours shown in this and the following images

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Figure from Kirsner and Dunn (2004)

As submitted to Mearns and the Finding Sydney

Foundation in December, 2004.

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26° South

26° 30’ South

111° East

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26° South

26° 30’ South

Kirsner and Dunn (2004)

Predicted position of Kormoran =

26° 04’ South 111° 02’ East

111° East

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26° South

26° 30’ South

Kirsner and Dunn (2004)

Predicted position of Kormoran =

26° 04’ South 111° 02’ East

FSF (2005)

Search box for Kormoran recommended by Kirsner (2005), and adopted and published by the FSF (FSF, 2005)

111° East

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26° South

26° 30’ South

Kirsner and Dunn (2004)

Predicted position of Kormoran =

26° 04’ South 111° 02’ East

FSF (2005)

Search box for Kormoran recommended by Kirsner (2005), and adopted and published by the FSF (FSF, 2005)

FSF / Mearns (2008)

Observed position of Kormoran =

26° 06’ South 111° 04’ East 111° East

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26° South

26° 30’ South

Kirsner and Dunn (2004)

Predicted position of Kormoran =

26° 04’ South 111° 02’ East

FSF (2005)

Search box for Kormoran recommended by Kirsner (2005), and adopted and published by the FSF (FSF, 2005)

FSF / Mearns (2008)

Observed position of Kormoran =

26° 06’ South 111° 04’ East 111° East

Kirsner and Dunn (2004)Error = 2.7 nm

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Positions and search area recommended by Mearns during presentations to:

The West Australian Maritime Museum (November, 2004a)

Directors of the FSF (November, 2004b)

Legend

The blue circles are the positions recommended by Mearns (2004a, b)

The rectangle is the search box recommended by Mearns (2004a, 2004b)

The water depth in this area demanded equipment rated for 6000 metres

Mearns (2004a, 2004b)

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Mearns (2004a, 2004b)

Mearns / FSF (2008)

Position of Kormoran established by the FSF during search on MV Geosounder

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111° East

26° South

Mearns 3

Mearns 1

Discussion about search positions between David Mearns and Kim Kirsner, December, 2004)

The meeting was convened by FSF Director Keith Rowe, and attended by Kathryn Hird as well as Mearns and Kirsner. FSF Director Rowe recorded and plotted the recommended positions.

Kirsner & Dunn (2004)

Mearns 2

Positions nominated by Kirsner and Dunn (2004) and Mearns (2004), together with the Observed position of Kormoran

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111° East

26° South

Mearns 3

Mearns 1

Discussion about search positions between David Mearns and Kim Kirsner, December, 2004)

Kirsner & Dunn (2004)

Mearns 2

Position established for Kormoran in 2008

Positions nominated by Kirsner and Dunn (2004) and Mearns (2004), together with the Observed position of Kormoran

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Finding Sydney Foundation (2005)

Powerpoint display used in numerous presentations to the Common-wealth, the states, the RAN and private and corporate donors during 2005, 2006 and early 2007 (e.g., to Senator Ellison in May, 2005)

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Kirsner & Dunn (2004)

Predicted position of Kormoran

FSF (2005)

Recommended Search Box for

Kormoran

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Kirsner & Dunn (2004)

Predicted position of Kormoran

FSF (2005)

Recommended Search Box for

Kormoran

Mearns (2004, FSF, 2005)

Predicted positions of Kormoran

Mearns (2004, FSF, 2005)

Predicted positions of Kormoran

Mearns (2004, FSF, 2005)

Recommended Search Box Kormoran

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Kirsner & Dunn (2004)

Predicted position of Kormoran

FSF (2005)

Recommended Search Box for

Kormoran

Mearns (2004, FSF, 2005)

Predicted positions of Kormoran

Mearns (2004, FSF, 2005)

Predicted positions of Kormoran

Mearns (2004, FSF, 2005)

Recommended Search Box Kormoran

FSF / Mearns (2008)

Observed position of Kormoran

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Finding Sydney Foundation (2007)

FSF (2007)

Map prepared and used by FSF for submission to the Commonwealth

[e.g., part of Funding Request submitted to Commonwealth, June, 2007]

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Kirsner & Dunn (2004) and FSF (2005, 2007)

Position recommended by Kirsner & Dunn (2004)

Search Box attributed to Kirsner and Dunn by FSF

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Kirsner & Dunn (2004) and FSF (2005, 2007)

Position recommended by Kirsner & Dunn (2004)

Search Box attributed to Kirsner and Dunn by FSF

Mearns (2007)

New positions and Search Box for Kormoran attributed

to Mearns by FSF (2007)

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Kirsner & Dunn (2004) and FSF (2005, 2007)

Position recommended by Kirsner & Dunn (2004)

Search Box attributed to Kirsner and Dunn by FSF

Mearns (2007)

New positions and Search Box for Kormoran attributed

to Mearns by FSF (2007)

FSF / Mearns (2008)

Observed position of Kormoran

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Comment

The positions and search boxes provided by Kirsner and Dunn in 2004 and 2005 were adopted and published via an FSF POWERPOINT used for presentations to the Commonwealth, the states, the RAN, and corporate and private donors during 2005, 2006 and early 2007 (see Finding Sydney Foundation, 2005).

A paper and the Kormoran Database were provided to the Cole Commission of Inquiry in 2008, at the Commission’s request.

If consideration is extended to the RAN, corporate search projects, the Cole Commission, and the funds provided to the FSF, expenditure on the search for Kormoran and Sydney was c. $15M.

Australian universities receive hundreds of millions of dollars for research, and they encourage their staff to engage in outreach projects including the work of the Museums, and organizations such as the Finding Sydney Foundation.

The Commonwealth and the Australian community are entitled to an accurate account of the performance of their institutions and their staff.

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6.5 History of Search Definition: Finding Sydney Foundation (2009)

Alan PuckettAlan Puckett

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Testimony to Cole Commission of Inquiry by Ted Graham (Chairman, Finding Sydney Foundation, February 2nd, 2009)

“When I became seriously interested in trying to locate Sydney, I spent a lot of time with Kim and John and I was quite convinced that their work and the work of the oceanographers and similar people who helped them determine that northern position - I was quite convinced that that was where Sydney and Kormoran lay.

In 1998 I signed a letter to the Parliamentary Inquiry, which was under the banner of the former trust, saying how long we thought it would take us to find Kormoran, and I have a feeling we mentioned three days. Ten years later, it took us 67 hours. So the estimate of three days, which was based on work that Dr Kirsner and John Dunn did, was remarkably accurate.

That was the determination of position that the FSF took with it and kept with it all the way through. The actual search in 2008 was undertaken using David Mearns' search box, but that search box also included Kim's, and as we know, on the third or fourth line, we found Kormoran first. So that's the background to the research. We used that research from 2001 right through.” (page, 1599)

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26° South

111° East

Kirsner & Dunn (2004) / FSF (2005)

Predicted position of Kormoran

Recommended Search box for Kormoran (< 400 square nautical miles)

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26° South

111° East

Mearns (2008)

In-water Search box for Kormoran (1600 - 1800 square nautical miles)

Kirsner & Dunn (2004) / FSF (2005)

Predicted position of Kormoran

Recommended Search box for Kormoran

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26° South

111° East

FSF / Mearns (2008)

Search Track 1

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26° South

111° East

FSF / Mearns (2008)

Search Track 2

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26° South

111° East

FSF / Mearns (2008)

Search Track 3

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26° South

111° East

FSF / Mearns (2008)

Search Track 4

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26° South

111° East

FSF / Mearns (2008)

Discovery of Kormoran

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How ‘precise’ is 2.7 nautical miles

The oceanographers and search and rescue solutions ranged from approximately 15 to approximately 40 nm from Kormoran.

The final solution offered by the historians was approximately 11 nm from Kormoran, close enough to support discovery in an in-water search.

The solutions published by Mearns (Mearns, 2004a) or attributed to Mearns (FSF, 2005; 2007) prior to the in-water search ranged from 17 to 45 nm from Kormoran.

The performance of the Cognitive Scientists reveals a traditional learning curve (See Speelman & Kirsner, 2005). Thus,

Using a Search and Rescue model Kirsner (Kirsner, 1991, Kirsner, 1992 and Kirsner and Hughes (1993) identified positions approximately 20 nautical miles from Kormoran.

Using cognitive reconstruction without a mathematical decision model, Kirsner and Dunn (1998a) identified a position approximately 10 nautical miles from Kormoran (“a few miles north of 26° 15’ South 111° East”).

Using cognitive reconstruction with a mathematical decision model, Kirsner and Dunn (2004) identified a position approximately 3 nautical miles from Kormoran.

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[Distance between predicted and observed]

Distance between central tendency and wreck of Kormoran (nm)

0

10

20

30

40

50

Contributor

Dis

tan

ce (n

autic

al m

iles)

Oceanographers, Marine Surveyors and Search and Rescue experts

Distance (nm) between predicted and observed positions of Kormoran for solutions offered by Oceano-graphers, Marine Surveyors and Search and Rescue experts.

The relevant publications are for Steedman & McCormack (1991), Hughes (1991), Penrose & Klaka (1991), Anderson (1997), Hughes (2001) and Griffin (2008)

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Distance between central tendency and wreck of Kormoran (nm)

0

10

20

30

40

50

Olso

n (1

995)

Olso

n, H

ore,

Golds

mith

& V

ickrid

ge (2

001)

Contributor

Dis

tan

ce (

nau

tica

l m

iles

)

[Distance between predicted and observed]

Olson

Distance (nm) between predicted and observed positions of Kormoran for solutions offered by the Historians.

The relevant publications are from Olson (1995) and Olson, Hore, Goldsmith and Vickridge (2001)

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[Distance between predicted and observed][Distance between predicted and observed]Distance between central tendency and wreck of Kormoran (nm)

0

10

20

30

40

50

Mearns (2004)

Mearns (2004)

Mearns (2004)

Mearns (2004)

Mearns (2005)

Mearns (2005)

Mearns (2007)

Contributor

Dis

tan

ce (

nau

tica

l m

iles

)

Mearns

Mearns (2004-2007)

Positions published by Mearns (Mearns, 2004a, 2004b), or attributed to Mearns by the FSF (2005, 2007).

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Distance (nautical miles) between Predicted and Observed Positions of Kormoran

0

10

20

30

40

50

KK

KK

KK

KK

& S

H

KK

KK

& J

D

KK

& J

D

91 92 92 93 94 95 96 97 98 99 00 01 02 03 04 05 06 07 08

Year

Dis

tanc

e (n

autic

al m

iles)

Distance (nm) between predicted and observed positions of Kormoran for solutions offered by Kirsner and his colleagues.

The contributions fall into three phases based on:

Search and Rescue models (1991-1993)

Cognitive Reconstruction without a mathematical decision model (1997-1998)

Cognitive Reconstruction with mathematical decision model (2004)

Kirsner and Kirsner and Dunn

SH: Sam Hughes

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Area for next map

Phase 3 (2004)Based on Cognitive Science with Mathematical Decision Model -Position was the only one offered to or used by the Finding Sydney Foundation

Position of Kormoran

Phase 1(1991-1993)Based on Search and Rescue modelwith collaboration and advice from Sam Hughes, a SAR expert

Phase 2(1997-1998)Based on Cognitive Reconstruction withoutMathematical Decision Model

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Skill Acquisition

Kirsner and Dunn’s contribution to search definition reflects ‘skill acquisition’, as they moved down the ‘learning curve’, from novices in 1991 to experts in 2004. The phases are described below:

Phase 1 (1991-1993): Work based on Search and Rescue model involving collaboration with Sam Hughes (Kirsner, 1991; Kirsner, 1992a; 1992b; Kirsner and Hughes, 1993)

Phase 2 (1997-1998): Based on Cognitive Science without a Mathematical Decision Model (Kirsner, 1997a; Kirsner & Dunn, 1998a)

Phase 3 (2004): Based on Cognitive Science with a Mathematical Decision Model (Kirsner & Dunn, 2004)

Learning curves follow similar functions for laboratory as well as real world tasks such as probability of death in aerial combat, surgical skill, industrial production rates, and a host of other tasks.

See Speelman and Kirsner (2005) for a review of Learning Curves

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The figure on the final slide in this section indicates the approximate sizes of the search boxes recommended or used in the search for Kormoran together with comparable areas associated with the searches for Titanic, Bismarck and Yorktown.

The precision generally associated with Ballard’s navigational solutions is clear.

The imprecision associated with the Search and Rescue and Oceanographic solutions is equally clear.

The area recommended by Griffin in 2008 is depicted in the background of slide 10, as a dark green oval nearly 200 nm from North to South.

The bases for the observed degrees of precision or imprecision in the hybrid approaches adopted by Kirsner and Dunn (2004) and Mearns (2008) are less clear.

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13000

1800

400

3300

7850

300

150

100

0 2000 4000 6000 8000 10000 12000 14000

Griffin (2008, Oceanography, Kormoran)

Mearns (2008, Navigation & Oceanography,Kormoran)

Kirsner & Dunn, (2004, Cognitive Science,Kormoran)

Hughes (2001, Search and Rescue,Kormoran)

Hughes (1991, Search and Rescue,Kormoran)

Ballard (Yorktown, Navigation, 1998)

Ballard (Bismarck, Navigation, 1989)

Ballard (Titanic, Navigation, 1985)

The areas shown in the figure and text are square nautical miles (≈)

Analysis of Search Boxes

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Theodor Detmers, Captain of Kormoran

The Kormoran Record included 15 reports attributed to Detmers.

These reports involved six positions comprising 26° S 111° E (2 reports, correct position), 26° 31’ S 111° E (1), 26° 32’ S 111° E (6), 26° S 34’ S 111° E (4), 26° S 110° E (1) and 25° S 111° E (1).

Ten of the reports referred to the position as the “Action” or “Engagement” position; two referred to the pre-action sighting, and three were ambiguous.

Eight of the reports were recorded between one and two weeks after the battle, and involved interviews or interrogations with Kormoran survivors. The date of origin of the coded dictionary is unclear.

The extent to which the language and interrogation conditions contributed to the spread of the positions is unclear.

Olson, Hore, Goldsmith and Vickridge (2001) extracted the correct reading from this complex and demanding data set. Their work and their solution anticipated Mearn’s apparent adoption of the same solution by seven years.

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Henry Meyer, Navigator of Kormoran

The Kormoran Record included seven reports attributed to Meyer.

These reports involved four ‘positions’. The positions comprised 27° S 111° E (4 reports), 26° 30’ S 111° E (1), 26° S 111° E (1) and 150 nm South East of the landing position for Meyer’s lifeboat.

The sequence is systematic, and fascinating. The reports involving 27° S 111° E appear to have been provided prior to November 30th, 1941. This position is nearly 60 nm from the wreck.

The report involving 26° 30’ S 111° E was provided on December 1st, 1941, possibly after Meyer had been reunited with Detmers. This position is nearly 30 nm from the wreck.

The report involving ’distance sailed’ provided an accurate solution, near 26° S 111° E. The final report, specifying 26° S 111° E, was discovered on the back of a family photograph donated to the West Australian Maritime Museum by Meyer’s son in 2000.

It is possible that Meyer provided misleading information during the Search and Rescue operation.

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The crew

The procedure adopted by Kirsner and Dunn (2004) assumed that reliable knowledge about the location of the battle was distributed among the crew because that information was critical to their survival in the lifeboats in the week following the engagement.

Kirsner and Dunn used the reports provided by the Captain, the Navigator, one of the prize Captains, and numerous signal personal. While virtually every reporter and the majority of the reports included an ‘error’ of some sort; treated as a set they pointed to the precise position of the wreck of Kormoran.

Most of the relevant reports emanated from domain experts working in their domain of expertise; that is, the crew.

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In 1991, McCarthy proposed that the search for Kormoran should precede the search for Sydney because more information was available about the location of Kormoran.

In 1997 Rear Admiral Holthouse (ret), an engineer with combat experience, cast doubt on the Abrolhos Island claim for Sydney, arguing that the absence of survivors and signals left little room for a 20-40 hour voyage after the engagement.

Sydney was on fire after the battle. The Kormoran survivor’s reports provided estimates of the movement of Sydney following the battle, and enabled Kirsner (1997) to plot changes in the rate of separation between the vessels from 1800 hours to the last reported sighting some four hours later. A figure depicting the rate of separation is shown on the following page (Kirsner, Norman and Dunn, 2003).

The following image shows the product of this analysis. The 1997 analysis provided a prediction for the position of the wreck of Sydney relative to Kormoran. The search area for Sydney was specified in FSF (2005)

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Each circle shows one report from a survivor indicating the time and the estimated distance of Sydney. The general direction offered with these reports was South-East.[from Kirsner (1997) and Kirsner, Norman and Dunn, 2003]

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Finding Sydney Foundation (2005)

Finding Sydney Foundation (2005)

Map prepared and used by FSF for presentations to the Commonwealth, the states, the RAN, and the private and corporate donors

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Kirsner & Dunn (2004)

Predicted position of Kormoran

FSF (2005)

Recommended search quadrant for

Sydney given predicted position

of Kormoran.

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Kirsner & Dunn (2004)

Predicted position of Kormoran

FSF (2005)

Recommended search quadrant for

Sydney given Predicted position

of Kormoran.

Mearns / FSF (2008)

Observed position of Kormoran

FSF (2005)Adjusted search

quadrant for Sydney given

Observed position of Kormoran.

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Kirsner & Dunn (2004)

Predicted position of Kormoran

FSF (2005)

Recommended search quadrant for

Sydney given Predicted position

of Kormoran.

FSF (2008)

Observed position of Kormoran

FSF (2005)Adjusted search

quadrant for Sydney given

Observed position of Kormoran.

FSF/Mearns (2008)Observed position of Sydney

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Australian Science

Between 1991 and 2004 Kirsner and Dunn systematically revised and refined their approach to search definition, and reduced their error – the distance between the predicted and observed positions for Kormoran - from approximately 20 nautical miles in 1991 to less than 3 nautical miles in 2004.

In 2004 we used seven reports from the Kormoran survivors, one QQ signal from Kormoran, and one life-raft drift analysis together with a mathematical decision model to predict the location of Kormoran.

The successful application of transparent and systematic scientific procedures demonstrates that Cognitive Science has a significant role to play in wreck-hunting.

The interested reader is referred to Kirsner and Dunn (2004) for a more detailed account of the analyses used to predict the location of Kormoran.

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Precedent

Independent review and precedent are the most important principles in scientific discovery.

The position identified for Kormoran by Kirsner and Dunn in 2004 was correct, to within “spitting distance”, as FSF Director Keith Rowe put it in an email to the authors in 2008.

The arguments and recommendations were provided on a pro bono basis to the FSF and Mearns in 2004. They were reviewed by Mearns in that year, and by the FSF and Mearns in 2005.

Mearns provided extensive criticism of Kirsner and Dunn’s (2004) analysis, however the solution was adopted and used by the FSF in presentations and submissions to the Commonwealth, the states, the RAN and corporate and private donors in 2005, 2006 and early 2007.

In 2008, as the MV Geosounder departed Geraldton, Mearns produced a search box that included Kormoran.

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The Finding Sydney Foundation

FSF publications demonstrate that the Foundation had adopted an appropriate location for Kormoran as early as 2001, the year in which the Foundation was established.

By 2004, the FSF search definition team (Kim Kirsner, John Dunn, and Bob King) had provided the Foundation with a precise target for Kormoran just 2.7 nm from the wreck of that vessel. In 2005 they added a search box and search quadrant that included Kormoran and Sydney respectively (see FSF, 2005)

The search box recommended by the FSF team for Kormoran in 2004 was approximately 400 square nautical miles. Kormoran is more or less dead centre in that search box. The search box adopted by Mearns in 2008 was approximately 1800 square nautical miles.

The search quadrant recommended by the FSF team for the search for Sydney in 2005 was 570 square nautical miles. Sydney was in that quadrant.

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The Royal Australian Navy (1941)

It is evident that the Search and Rescue operations co-ordinated by the RAN in 1941 focused on the right general area The major search boxes involving RAAF Hudson aircraft were centred on the approximate location of the wreck of Kormoran (See Olson, 2000 for maps of the RAAF search areas).

It is also clear that the interviews and interrogations conducted by the RAN after the disaster elicited generally reliable information about the location of the battle, and about the distance between the ships at the outset and the end of the engagement.

The Kormoran database includes many errors, but no more than could be expected given the delay – seven to 21 days after the battle – and the language and recording conditions that the RAN personnel were operating under.

The search definition and knowledge elicitation or ‘interrogation’ teams activated by the RAN in 1941 deserve recognition for a job well done.

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Kim Kirsner received bachelors and doctoral degrees from the University of London. Following a post-doctoral fellowship at the University of Toronto, Kim joined the University of Western Australia. Kim was elected Fellow of the Academy of Social Science in 1997.

Kim has published numerous books, book chapters, refereed articles and conference proceedings on memory, aphasia, bilingualism, implicit memory, language production, skill acquisition, cognitive reconstruction and command and control.

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John Dunn received his BSc (Hons) and doctoral degrees from the University of Western Australia. John has taught at the universities of Queensland, Western Australia and Adelaide, where he is currently Professor and Deputy Head of the School.

John has published numerous books, book chapters, and refereed articles and conference proceedings in visual attention, cognitive psychology, memory including work on methodological issues in neuropsychology, decision-making in complex environments, and mathematical models.

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Alan Puckett

14. Acknowledgements

Alan PuckettAlan Puckett

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Mike McCarthy

Significant credit for the successful search for HMAS Sydney must go to Mike McCarthy, Curator at the Western Australian Maritime Museum. Mike served the entire HMAS Sydney community with commitment, courtesy, and humour for more than 20 years.

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The Technical Search Committee of the Finding Sydney Foundation

The Technical Search Committee - responsible for search recommendations from 2004 to the departure of the MV Geosounder from Geraldton in 2008 – provided professional review and analysis under difficult conditions.

The recommendations of the Technical Search Committee attracted fierce opposition from the Map Dowsers, the Oral Historians, and the Navigators.

Bob King deserves recognition for his exceptional contribution to the Technical Search Committee as Project Manager for the Finding Sydney Foundation.

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Grateful acknowledgement is made to the following people for technical and conceptual contributions to our analysis and presentation.

• Richard Bone (IT consultant, ELK Software, Perth)

• Mark Comeadow (IT consultant, CISCO, London)

• Zina Cordery (IT consultant, Edith Cowan University)

• Kevin Durkin (Professor, School of Psychology, Strathclyde University)

• Kim Heitman (Senior Legal Officer, University of Western Australia

• Kathryn Hird (Professor and Associate Dean, School of Medicine, University of Notre Dame Australia)

• Doug Robb (Information Manager, School of Psychology, University of Western Australia)

• Ming Zhu (Geo-scientist, School of Mathematical and Geospatial Sciences, Royal Melbourne Institute of Technology University).

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The authors wish to acknowledge financial and administrative support from the following:

• The Australian Research Council

• The Australian War Memorial

• The Western Australian Maritime Museum

• The University of Western Australia

• The School of Psychology at the University of Western Australia

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Anderson, I. (1997). Determination of likely position of HMAS SYDNEY and HSK KORMORAN. Fugro Reference Number HY11076.

Bartlett, F. C. (1932; reprint 1964). Remembering: A study in experimental and social psychology. London: Cambridge University Press.

Detmers, T. (1959). The Raider Kormoran. London: William Kimber.

Dunn, J. & Kirsner, K. (2001). Using a 'temporal traingulation' technique to recommend a search area and starting point for the search in the vicinity of the northern area. McCarthy, M. (compiler). Submissions to the November 2001 HMAS Sydney II Seminar

Finding Sydney Foundation (2005). Search for HMAS Sydney II – 2005/6: Solving Australia’s most enduring Maritime Mystery. HMAS Sydney Search Pty Ltd. PowerPoint presentation. Endorsed for use by the Finding Sydney Foundation (2009)

Finding Sydney Foundation (2007). Status Report on Achievements and Opportunities. Submission to the Commonwealth of Australia. Endorsed for use by the Finding Sydney Foundation (2009)

Graham, E. (). EXHIBIT #157 FINDING SYDNEY FOUNDATION SUBMISSION; SUMMARY OF THE PRE-SEARCH AND SEARCH ACTIVITIES - SEARCH FOR HMAS SYDNEY: Oral evidence provided on February 2nd, 2009. (II) http://www.defence.gov.au/sydneyii/documents/TRAN.025.0001_R.pdf

Griffin, D. (2008). Locating HMAS Sydney by back-tracking the drift of two life-rafts. Final Report: The search to find andidentify the wrecks of HMAS Sydney II and HSK Kormoran. Finding Sydney Foundation (Volume 2).

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Hughes, A.J. (1991). A possible solution based on modern SAR Planning Techniques. In M. McCarthy., & K. Kirsner (compilers). The HMAS Sydney Forum. Department of Maritime Archaeology, Western Australia Maritime Museum Report #52.

Hughes, S. (2001). Locating HMAS Sydney and HSK Kormoran by Computer Generated Net Water Movement System. Submission to HMAS Sydney Wreck Location Seminar, Fremantle, 2001.Johnstone, Crouch, Cowan, & O'Driscoll (2003)

Kirsner, K. (1991). HSK "Kormoran" versus HMAS “Sydney” - Converging operations in historical analysis. In M. McCarthy, & K. Kirsner (compilers). The HMAS Sydney Forum. Department of Maritime Archaeology, Western Australia Maritime Museum Report #52.

Kirsner, K. (1992). The search for HSK Kormoran and HMAS Sydney: A Preliminary Analysis based on SAR Procedures. The Great Circle: Journal of the Australian Association of Maritime History, 14, 88-104.

Kirsner, K. (1992). HSK Kormoran versus HMAS Sydney: The 20th Century Maritime Mystery. In R. Gardiner (Ed.). Warship 1992. Conway Maritime Press. London

Kirsner, K. & Hughes, S. (1993). HMAS Sydney and HSK Kormoran: Possible and Probable Search Areas. WA Maritime Museum Report #71.

Kirsner, K. (1997, February). The Longest Search. Paper presented to the 55th Anniversary Forum of the loss of HMAS Sydney.

Kirsner, K. (1997, September). Organizational memory and ‘the war of the ghosts’: The archival search for the location of HMAS Sydney. Paper presented to the 17th International Conference of the Australian Institute for Maritime Archaeology: The Maritime Archaeology of Long Distance Voyaging; Iron and Steam Shipwrecks, Western Australian Maritime Museum.

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Kirsner, K. & Dunn, J. (1998, May). Feasibility of the search for HMAS Sydney and HSK Kormoran: Oceanographic and Cognitive Issues. Submission to the Joint Standing Committee on Foreign Affairs, Defence and Trade Defence Sub-Committee: Inquiry into the circumstances of the sinking of HMAS Sydney. Volume 11, 2727-2742.

Kirsner, K. & Dunn, J. (1998, June). A review of the oceanographic and cognitive evidence that HSK Kormoran is at 28°39’S 113°22’E. Submission to the Joint Standing Committee on Foreign Affairs, Defence and Trade Sub-Committee: Inquiry into the circumstances of the sinking of HMAS Sydney. Volume 16, 4023-4058.

Kirsner, K. & Dunn, J. (1998, June). Cognitive problems associated with the use of oral history data: Supplement to “Feasibility of the search for HMAS Sydney and HSK Kormoran: Oceanographic and Cognitive Issues”. Submission to the Joint Standing Committee on Foreign Affairs, Defence and Trade Defence Sub-Committee: Inquiry into the circumstances of the sinking of HMAS Sydney. Volume 18, 4311-4313.

Kirsner, K., Norman, C. & Dunn, J. (2003). HMAS Sydney Search Pty Ltd. Presentation by Kim Kirsner, Cathy Norman and John Dunn to the Directors of HMAS Sydney Search.

Kirsner, K. & Dunn, J. (2004). The Search for HSK KORMORAN and HMAS SYDNEY II: A Cognitive Perspective. UWA Site for Cognitive Analysis of Archival, Historical and Memory Databases. http://www.whereissydney.com/

Kirsner, K. & Dunn, J.C. (2008a). Kormoran Database. Submission requested by Cole Commission of Inquiry.

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McCarthy, M. & Kirsner, K. (1991, November). The HMAS Sydney Forum. Department of Maritime Archaeology, Western Australia Maritime Museum Report #52.

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Mearns, D.L. (2004a). In search of HMAS Sydney and HSK Kormoran. Presentation at the West Australian Maritime Museum.

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Mearns, D.L. (2009). The Search for Sydney. HarrperCollins Publishers. Sydney.

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Olsen, W., Hore, P., Goldsmith, R. & Vickridge, G. (2001).Archival Record. Workshop Report. HMAS Sydney Wreck Location Seminar.

Penrose, J.D. & Klaka, K.P. (1991). Notes on the movement of wreck material from the area of the “Sydney” / “Kormoran” engagement. In M. McCarthy, & K. Kirsner (compilers). The HMAS Sydney Forum. Department of Maritime Archaeology, Western Australia Maritime Museum Report #52.

Steedman, R. & McCormack, P. (1991). Backtracking the lifeboats and floats – a Metaocean view. In M. McCarthy, & K. Kirsner (compilers). The HMAS Sydney Forum. Department of Maritime Archaeology, Western Australia Maritime Museum Report #52.

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