Friday, 17 January 2020

Gimme STOVL : Singapore Decides On The F-35B






F-35B of the Marine Fighter Attack Training Squadron 501
Photo : Lockheed Martin





On 9th Jan 2020, the Defense Security Cooperation Agency ( DSCA ) announced that the US Department of State had just approved a potential Foreign Military Sale ( FMS ) to Singapore of up to 12 F-35B Short Take-Off And Vertical Landing ( STOVL ) aircraft and related equipment for an estimated cost of USD 2.75 billion.

Singapore's interest in the F-35 Joint Strike Fighter ( JSF ) program had began in Mar 2004 when it became a security cooperative participant. For a very long time the Singapore government seemed contented to just monitor the progress of the JSF program as it matured. There were numerous instances when defense analysts and news agencies had indicated that Singapore might be ready to acquire the F-35 but the JSF deal had remained elusive. It even failed to materialize during Prime Minister Lee Hsien Loong's visit to the White House in 2016, at the invitation of President Obama.

All that changed in Jan 2019 when Minister for Defense Ng Eng Hen announced that Singapore had identified the F-35 as a suitable candidate to replace its ageing F-16 fighters and would be acquiring a small number of the stealthy 5th generation fighter for a full evaluation of its capabilities and suitability before deciding on a full fleet.

By Mar 2019 it was revealed that Singapore would be requesting for an initial four F-35 JSF with an option for eight more, variant unspecified. Months of media speculation followed, but we now know that Singapore has selected the F-35B, the STOVL version which is the most expensive among the three F-35 variants.


The F-35 In A Nutshell


At a cost of more than USD 400 billion, the F-35 Joint Strike Fighter program is the most expensive weapons program the world has seen. Its aim is to produce an affordable fifth generation multi-role stealth fighter to replace various legacy fighters of the US and its closest allies. The F-35 comes in three variants, all having similar performance characteristics and share commonality in parts and processes in order to capitalize on the economies of scale to reduce procurement and sustainment costs. The variants cater to the differing service-specific requirements by the Air Force, Navy and Marines. To put it simply, the F-35A is the conventional take-off and landing ( CTOL ) version for the Air Force, the F-35B is the STOVL version for the Marines while the F-35C is the carrier variant ( CV ) for the Navy.

The JSF program is plagued with multiple issues from technical deficiencies, delays to cost overruns and the root of its many problems can be traced to its developmental concept of " concurrency ". The idea that in an era where new technology is emerging at an unprecedented rate, an aircraft design will be obsolete the moment its development has concluded. In order to field aircrafts with the latest technologies earlier, they will be produced before tests and trials are completed and eventually upgraded along the way to the latest standards.

Despite its troubled past, the JSF program has matured over the years and has seemed to turn around to deliver what was originally promised - affordable stealth. Unit prices have continuously fallen in the past several years due in part to an increase in production efficiency and to the economy of scale from an increase in aircraft orders.



New Capabilities for the RSAF



Acquiring the F-35B will bring two completely new capabilities to the Republic of Singapore Air Force ( RSAF ) - STOVL and Stealth. Between the two, I would believe STOVL is the most unique since there is not another country in the Asia Pacific region save Japan that has confirmed plans for such a capability.

Stealth technology can become an increasing crucial capability to have as Singapore's regional near-peer rivals begin to acquire sophisticated aircrafts like the Su-30 and Su-35 which can out-class even the RSAF's most advance fighter like the F-15SG. It can ensure higher survivability of the aircraft and pilot in an extremely hostile threat environment.

STOVL is equally important to ensure sustained generation of air operations in the event of disruptive attacks to Singapore's airbases. Aircrafts with short field capabilities can be dispersed and hidden more effectively on the ground and can have alternative means of take-off and landing even when the conventional runway is made unavailable by a pre-emptive strike.

In addition, having STOVL capable jets means that should the Singapore Navy decide to replace its Endurance-class landing ship tank with something bigger like the Endurance-160 Joint Multi-Mission Ship, these helicopter assault ships can be potentially modified for F-35B operations as well, converting them into light aircraft carriers. The JMMS then becomes mobile airfields at sea, projecting airpower and will be an added insurance against complete annihilation through a coordinated attack on Singapore's land based runway infrastructure.




F-35B of the Patuxent River Integrated Test Force
attempts vertical landing on the Queen Elizabeth II
3rd Nov 2018. Photo : USN 



STOVL : Unique Capability At A Price



The F-35B is not just the only modern STOVL jet fighter that is currently in production, it is also capable of supersonic flight. Its predecessor the AV-8B Harrier II which is also STOVL capable is at best only sub-sonic. This short field and austere field capability is the unique selling point of the F-35B but it comes at a price.

The requirement for STOVL capability in the F-35B meant that its design is the most complex among the three F-35 variants. It needed a proprietary shaft driven LiftFan propulsion system and an engine nozzle that can swivel 90 degrees when in STOVL mode. This in turns imposes limits on the size of the internal weapon bay and the internal fuel capacity which translates to a reduction in the weapons payload and combat radius. It even imposes structural limits and the F-35B has the lowest maximum g-rating among all the variants. Understandably the unit cost of the F-35B is also consistently the highest compared to the other variants.

So in view of the various technical setbacks peculiar to the F-35B, is the STOVL a capability worth having? The answer has to be an absolute yes if you intend to have fixed-wing flight operations on non-catapult equipped aircraft carriers like the navies of the United kingdom, Italy and Japan. It will also be a resounding yes for a small nation like Singapore which lacks strategic depth and has air bases that can be vulnerable to a determined attack by rocket, artillery and mortar fire from across its boarders.

Looking at the broader picture, the non-STOVL variants, the F-35A and the F-35C, also suffered similar functional and structural setbacks albeit to a lesser degree simply because of the requirement that all three variants had to have shared design and components with various degrees of commonality. In other words, the Marine Corps' insistent that STOVL capability must be included in their variant essentially resulted in the Air Force and the Navy having to accept compromises on their variants too. Compared with its 4th generation peers that it is meant to replace, the F-35 is frequently found to be a little lacking in maximum speed, agility, range and payload. The saving grace is that the F-35 more than makes up for all these shortfalls through its superior suite of sensors, avionics, sensor fusion and low observable technology, all of which shall be briefly reviewed below.



F-35 specifications. Source : LMC


Very Low Observable



The F-35 is a fifth generation fighter which, according to its main contractor Lockheed Martin, is defined by the combination of Very Low Observable ( VLO ) stealth, advanced sensors, information fusion and network connectivity within a supersonic, long range and highly maneuverable aircraft.

VLO stealth technology is an integral part of the F-35's design. The clever use of shapes to deflect radar waves, the careful selection of materials that can dissipate radar energy and the internal carriage of weapons, fuel and embedded sensors means that it is much harder for the enemy to detect the F-35. The radar cross section ( RCS ) of the F-35 is the smallest when it is viewed head-on but less so when viewed from the side and even worse when viewed from the rear so it is hardly all-aspect stealth. It is also mainly stealthy in the X-Band, the most common frequency used by fire control radars and less so in other lower frequencies.

As much as it is hyped, stealth is not equivalent to invisibility to radar but rather a significant reduction in the detectability. Any advantage a stealth aircraft has can be undermined by several means including the use of infra-red search and tract technology to detect the heat signature of a stealthy aircraft and through the use of radar operating in frequencies other than the X Band, like L-Band or VHF.

While the level of stealth afforded by the F-35 is not at the same level as that of the F-22 Raptor, it is less costly to maintain as there is less dependency on expensive radar absorbing coating and that is definitely a good thing.


Distributed Aperture System



The electro-optical Distributed Aperture System ( DAS ) is a new generation of sensor system currently only found on the F-35 consisting of six identical high resolution mid-wave infrared ( MWIR ) sensors mounted all around the airframe in such a way as to provide an unobstructed 360 degree coverage for enhanced situational awareness. The DAS sends high resolution augmented reality imagery in real time to the pilot's helmet mounted display allowing them to see their surrounding environment with clarity day or night. It can provide functions including missile detection and tracking, launch point detection and countermeasures cueing, aircraft detection and tracking ( situation awareness IRST and air-to-air weapons cueing ), day and night navigation, and precision tracking of friendly aircraft for tactical maneuvering. Designated the AN/AAQ-37, the DAS is developed by Northrop Grumman Electronic Systems and has its fair share of teething problems though they have largely been resolved by now. More than a thousand DAS units have been delivered by Northrop Grumman so far, for installation on aircrafts up to and including LRIP Lot 14.

In 2018, Lockheed Martin announced that Raytheon has been selected to develop the next generation DAS which will be expected to have better performance, higher reliability and lower sustainment costs. They will be installed on all Low Rate Initial Production ( LRIP ) Lot 15 aircrafts for delivery in 2023.



Raytheon's next generation DAS. Source : LMC

 
 

Electro-Optical Targeting System

 
 
The AN/AAQ-40 Electro-Optical Targeting System ( EOTS ) is an internally mounted advance MWIR targeting sensor developed by Lockheed Martin Missiles and Fire Control Sensors. The EOTS integrates targeting forward looking infrared ( TFLIR ), infrared search and track ( IRST ), laser range finder / designator and laser spot tracker functionalities to provide the F-35 with precision air-to-air and air-to ground targeting capability. The low drag, stealthy EOTS is integrated into the F-35's fuselage ventrally just behind the nose cone with a faceted sapphire window and is linked to the aircraft's central processor by a high-speed fiber-optic interface. Utilizing the mid-wave portion of the IR spectrum provides a sharper image and is less susceptible to target obstruction by smoke or haze.
 
Lockheed Martin has already developed the next generation Advanced EOTS which will provide a range of multi-spectral sensing options including high-resolution mid-wave infrared, short-wave infrared and near infrared. It will have enhanced image detector resolution, high-definition TV and IR marker. The advanced EOTS will  be available for integration on the F-35's Block 4 development and will sharpen the F-35's close air support capabilities.
 
 
 
Source ; F-35 Joint Program Office


The EOTS on a F-35A. Source : LMC

 
EOTS functionalities. Source  LMC


Multi-Mission Active Electronically Scanned Array Radar



The AN/APG-81 active electronically scanned array ( AESA ) radar installed on the F-35 is developed by Northrop Grumman Electronic Systems. It is the next generation version of the AN/APG-77 AESA radar that was first fielded on the F-22A Raptor. It allows the F-35 to engage air and ground targets at long range and also has significant electronic warfare and intelligence, surveillance and reconnaissance functions. Its solid state technology and elimination of moving parts ensure better reliability compared with mechanically scanned antenna radars. The AN/APG-81 also has inherent low probability of intercept ( LPI ) features to minimize the likelihood of its emissions being usefully detected by enemy airborne or ground based receivers.

The AN/APG-81 is designed to operate as a radar, an electronic support measures ( ESM ) receiver, and a jammer. It has passive and active air-to-air and air-to-surface target detection, track and identification capabilities. It also enables synthetic aperture radar mapping, ground and sea moving target detection and track and air-to-surface ranging. As good as it is, the AN/APG-81 is still lacking a wide field capability in its sea search mode, being able only to seek out a narrow zone in front of it. This deficiency will be rectified in the F-35 Block 4 upgrade being carried out from 2019 to 2024. Together with the integration of partner nation ordnance like Norway's Joint Strike Missile which will also happen during Block 4 upgrades, the maritime strike capabilities of the F-35 will be greatly enhanced.


AN/APG-81 AESA radar. Source : Northrop Grumman



Integrated Communications, Navigation and Identification Avionics



The AN/ASQ-242 integrated communications, navigation and identification ( CNI ) avionics suite developed by Northrop Grumman is designed to provide the F-35 with secure, electronic countermeasures resistant voice and data communications; precise radio-navigation and landing capabilities; self-identification and BVR target identification; and network connectivity with off-board sources of information. All these at a reduction in size, weight and power requirements compared with legacy systems.

The CNI sub-systems includes the Multifunction Advanced Data Link (MADL), Link 16 data link, single-channel ground and airborne radio system (SINCGARS), IFF interrogator and transponder, HAVE QUICK radio, AM, VHF, UHF AM, and UHF FM radio systems, GUARD survival radio, radar altimeter; tactical air navigation (TACAN), inertial navigation system ( INS ), anti-jam GPS, instrument landing system ( ILS ) for conventional runways and aircraft carriers, the Joint Precision Approach and Landing System (JPALS), and the TADIL-J tactical digital information link with Joint-Variable-Message-Format (JVMF) communications.

The CNI system provides inter-operability with existing legacy military and civilian communications, radio-frequency navigation, and identify friend or foe ( IFF ) / surveillance systems. It is also interoperable with the appropriate civilian systems for US and European airspace operations.


Electronic Warfare / Countermeasures System



The AN/ASQ-239 electronic warfare / countermeasures ( EW/CM ) system developed by BAE is designed to provide the F-35 with a high degree of air-to-air and surface-to-air threat detection and self protection. It can search, detect, identify, locate and counter radio-frequency and infrared threats.

Its advance avionics and sensors enables real time, all aspect, broad-band coverage of the battlefield, maximizing detection ranges and giving the F-35 pilots evasion, engagement, countermeasure or jamming options. In other words it allows the F-35 to dominate the electromagnetic spectrum.

The EW subsystem serves as a signals collector which provides radar warning, identifies the geolocation of electronic emitters, tracks multiple aircrafts simultaneously, provides high gain electronic support measures ( ESM ), high gain electronic countermeasures ( ECM ) and high gain electronic attack via the AN/APG-81 radar's multifunction array.

The countermeasures subsystem provides multiple self-defense responses, including pre-emptive and reactive techniques, based on available expendable payload ( MJU-61/64/68/69 IRCM flares and ALE-70 RFCM fiber-optic towed decoys ) and threat-specific self-protection plans.

Lockheed Martin claims that due to the inherent, built-in electronic warfare capabilities the F-35 does not require a dedicated electronic attack aircraft to support it. That could potentially free up other aircraft to perform electronic attack missions to protect less stealthy aircraft. This organic jamming capability of the F-35 through its AESA radar, teamed with advanced jamming algorithm packages, can potentially provide 10 times the jamming power of legacy aircraft.



Various elements of the AN/ASQ-239
Source : LMC



The F-35's T-1687/ALE-70(V) fiber-optic towed decoy
works similarly to the F/A-18's AN/ALE-55 shown above.
Source : BAE Systems


Sensor Fusion



The F-35's advanced sensor fusion allow pilots to harness information received from all their onboard sensors to create a single integrated picture of the battlefield. Such information is then automatically shared with other pilots and command and control operating centers on their network via a secure datalink such as the Multifunction Advanced Data Link ( MADL ).


Helmet Mounted Display System



The F-35's Gen III Helmet Mounted Display System ( HMDS ) is an interface that provides pilots with intuitive access to vast quantities of flight, tactical and sensor information for advanced situational awareness, safety and precision. All the information that the pilots need to complete their mission is projected onto the helmet visor rather than on a traditional Heads-up Display. It reduces the pilot's workload and increases responsiveness. In addition, real-time imagery from the DAS's six IR cameras streamed to the helmet allows the pilot to virtually look through the airframe providing the equivalent of x-ray vision. The HMDS enables pilots to target weapons by looking at and designating targets. It does so by tracking the position of the helmet to determine the gaze of the pilot and supplies information such as target identity and distance. This off-boresight targeting capability is especially useful when used in combination with modern all-aspect air-to-air missiles like the AIM-9X. The helmet also offers visor-projected night vision and eliminates the separate use of night vision goggles.

All these functionality comes at a price though. The F-35's super helmet costs a whopping $400000 and has to be custom made for each aviator to ensure a precise fit for the tracking system to work accurately. Rockwell Collins, the maker of the helmet, estimated that every F-35 on order will need 2.5 to 3 helmets over their service life due to wear and tear, damage and pilot attrition and replacement.


F-35 Helmet. Source : USAF


Auto Ground Collision Avoidance System



Work done on the F-16's auto ground collision avoidance system ( AGCAS ) has enabled fielding of this revolutionary flight safety system on the F-35 seven years earlier than originally scheduled. The AGCAS integration could have began as early as 2019 and has been estimated to prevent more than 26 ground collisions over the service life of the F-35.



Autonomic Logistic Information System


The Autonomic Logistic Information System ( ALIS ) of the F-35's fleet managing system is the web enabled IT infrastructure that was meant to support cost effective sustainment throughout the life time of the aircraft. It however did not live up to expectations and has been blamed for, among other things, the F-35's poor mission capability rates in the past. It will be replaced by a new system known as Operational Data Integrated Network ( ODIN ) starting from late 2020 which it is hoped will be more user-friendly, secure and less prone to error. Full implementation will be expected by 2022.

 


Core Missions



Armed with such a dazzling array of advanced sensors and capabilities, the multi-role F-35 can be tasked to perform the following missions :

Air superiority - offensive and defensive counterair
Strategic attack / Air Interdiction against high value strategic and mobile targets
Close air support
Suppression / destruction of enemy air defense
Electronic Warfare
Intelligence, surveillance and reconnaissance
Extended surface warfare - maritime strike  ( with future F-35 Block 4 upgrades )

 
 
F-35 releasing JSM from its internal weapon bay
during maritime interdiction. Illustration : Kongsberg



Singapore's Cautious Buy



The F-35 has come a long way since the commencement of the JSF program in 2001. All three variants have achieved initial operational capability ( IOC ), with the F-35B of the Marine Corps first to do so in 2015 with Block 2B software which allows for initial warfighting capability. It was followed by the USAF's declaration of IOC for the F-35A in 2016 with the Block 3i software and lastly the USN for the F-35C with the Block 3F full warfighting capability software by Feb 2019. The long drawn system development and demonstration ( SDD ) phase has concluded in April 2018 and a new phase known as Initial Operational Test And Evaluation ( IOT&E ) has began. The successful conclusion of the IOT&E, initially due in Jul 2019 but currently delayed by problems relating to the Joint Simulation Environment facility, will pave the way for the commencement of full rate production ( FRP ).

Production numbers are peaking with a record number of 134 F-35s delivered in 2019 and that figure is expected to be surpassed in 2020. The combined all variants production numbers have reach 491 aircrafts by December 2019. The unit cost of all variants have continued to fall for the past few years and the latest LRIP Lot 14 F-35B for delivery in 2022 has a unit cost of S101.3 million, significantly lower than the LRIP Lot 11's $115.5 million or the LRIP Lot 10's $122.4 million. With the latest LRIP Lot 12 to Lot 14 F-35A CTOL variant Lockheed Martin even managed to lower the unit cost to their promised less than $80 million target, a year ahead of schedule.




Yet the F-35 has still not ironed out all its teething problems, though it probably will in time to come. Also, although unit prices have steadily fallen, operating costs have not. At between $34000 to $36000 per hour, the F-35 cost significantly more to operate compared with the legacy aircrafts it was meant to replace, like the F-16 ( $24000 per hour ) or F/A-18 ( $24400 per hour ). The fatal crash of a F-35A of the Japan Air Self Defense Force in April 2019 would have added uncertainties to its air worthiness and safety record but it was eventually attributed to spatial disorientation of the pilot. The event nonetheless delayed Singapore's decision making process to buy the F-35. It is therefore not surprising that the Singapore government only committed itself to an initial four aircraft purchase, with an option for eight more. It is not even enough to form half a squadron, and as declared the initial four aircrafts will be used for tests and evaluation. It will be crucial to find out, among other things, if the Pratt & Whitney F135 engine can actually produce enough vertical thrust in the typically hot and humid environment of Singapore to allow for hovering and vertical landing of a laden F-35B.


 

STOVL Above Stealth



Singapore's selection of the F-35B demonstrates that above all, it values the STOVL capability and the basing flexibility and operational flexibility it brings. If stealth and sensor fusion were its main focus, it would have chosen the F-35A CTOL variant like most other non-US operators of the F-35. It is even willing to trade physical attributes like range, payload and agility for the inclusion of STOVL, which in retrospect makes a lot of sense. The greatest strength of the F-35 is not about its absolute speed, rate of climb, range on internal fuel, sustained turn rate, maximum payload or maximum g-rating. Many legacy 4th generation fighters do better on those parameters. The real value of the F-35 is its survivability in an access denied high threat environment and its superior networking capability thanks to its VLO technology, all-encompassing sensors, organic self-protection mechanisms and connectivity. The planned closure of the Paya Lebar Air Base after 2030 will have the Republic of Singapore Air Force operating out of its three other remaining air bases, Sembawang, Tengah and Changi. That makes the adoption of STOVL capabilities very sensible as it can mitigate some of the risks of air operations disruption from airfield denial attacks.

In the United States, the F-35B has not only changed the way which the Marine Corps' Amphibious Ready Groups conduct their missions, it has given them new blue-water capabilities in the absence of a carrier nearby. The LHAs and LHDs have suddenly turned into mini-carriers in their own right and find themselves taking on missions normally assigned to carrier strike groups. These are mind boggling stuff that was just impossible a few years ago.




Mini carrier : USS America ( LHA-6 ) staged with 13 F-35B
of the VMFA-122 in the eastern Pacific 8th Oct 2019.
Photo : USN




What Happens Next



The Department of State has in principle given the green light for Singapore to acquire up to 12 F-35B fighters but Congress must still approve the deal. Congress was formally notified of the proposed sale on 9th Jan 2020 and has 30 days to review it before it is approved. Given the good bilateral relations between Singapore and the US and the fact that Singapore is a strategic friend and a major security cooperation partner of the US in the Asia Pacific region, the Congressional Note, a necessary FMS formality, will likely be approved without issues. With Congressional approval, final terms will be negotiated for the Letter of Offer and Acceptance.

Singapore may have deliberately timed its F-35 purchase to coincide with the end of LRIP and the beginning of full-rate production. Since current LRIP Lot 12 to Lot 14 for delivery between 2020 and 2022 are likely to have been fully allocated, the assembly of Singapore's initial four F-35B could be assigned to later production lots like LRIP Lot 15 / FRP. Whichever production lot they come from, Singapore is likely to receive the F-35B Block 4 with the latest software upgrades and enhanced warfighting capaibities.

All four initial F-35B are likely to end up at Marine Corps Air Station Beaufort in South Carolina where all international F-35B pilots and maintainers are trained. They will form a training detachment where the first batches of RSAF pilots and ground personnel will undergo training with their USMC counterparts from the Marine Fighter Attack Training Squadron 501 ( VMFAT-501 )  and other foreign entities from the UK, Italy and Japan.

Only when sufficient numbers of F-35Bs have been procured, such as when the addition option of eight F-35B have been exercised and sufficient pilots and maintainers trained will some of these new generation fighters be brought back to Singapore for integration with the rest of the Air Force. What follows will be the achievement of IOC and FOC.

The RSAF already has some of the assets and capabilities that will be essential for supporting 5th generation fighter operations, such as the Leonardo M-346 lead-in fighter trainer for pilot training prior to F-35 operational conversion and the Airbus A-330 Multi-Role Tanker Transport ( MRTT ) for aerial refueling during deployments. It is worthwhile to note that the F-35B ultilises the probe-and-drogue method for aerial refueling similar to all other USN and USMC fixed wing aircrafts, instead of the flying boom method common to USAF tactical fighters, including the F-35A. So apart from the MRTT, perhaps the refueling capabilities of the RSAF's ageing KC-130B and KC-130H might again be put to good use, provided they are still in service in the 2030s!




F-35B of VMFA-121 refuels from a KC-130J
over the East China Sea Oct 2018. Photo : USN
 
 
F-35B refueling from KC-130J near MCAS Beaufort
18th Mar 2015. Photo LMC


Sending A Message To China?



Hardly. The news media had it all wrong. While nobody apart from totalitarian and despotic regimes loves China, it does not mean that Singapore's F-35 buy is directed at China, or any other country for that matter, as the Ministry of Defence has claimed. This is especially true as Singapore does not have any territorial disputes with China and China is also one of Singapore's largest trading partners. But it does have a vested interest in ensuring its sea lines of communication remains secure and open so that trade flows are not disrupted.

The notion that Singapore can work together with the other F-35 operating countries in the Asia Pacific, namely Australia, Japan and South Korea, to contain China is also without merit. Why would Singapore want to get involved with the squabbles between China and each of these countries? Has it not had enough of its own problems?

Therefore this F-35 acquisition is just another routine force renewal exercise aimed at replacing the ageing F-16 fighters which have been in service with the RSAF since 1998. Nobody should really read too much into it or worry about it .... at least until the Joint Multi-Mission Ship is constructed.




F-35B performs ramp-assisted take-off onboard
HMS QEII in Nov 2018. Photo : USN





















Saturday, 11 January 2020

Singapore To Acquire F-35B


 Photo : Lockheed Martin


Here for the commentary on Singapore's F-35B acquisition.


 
 
 

Friday, 10 January 2020

Sumimasen, Is That The Singapore Lion On Your Logo Mark?


 


Logo mark of JDS Ise ( DDH-182 )



The other day I was just browsing the Japan Maritime Self Defense Force ( JMSDF ) website like I always used to now and then. They have recently launched the Maya-class Aegis destroyer Haguro ( DDG-180 ) and there is an open campaign for the design of the ship's logo mark. That's what the Japanese call the ship's crest or ship's emblem, the logo mark ( ロゴマーク rogo maku ). It's a routine publicity exercise for the JMSDF and they have conducted these competitions whenever there is a launch of a major vessel in the past few years. To let the designers have an idea of what would be expected, JMSDF kindly provided some references of the logo marks of several of their ships in active service. All seems well until something very out of the place caught my eye : the logo mark of the helicopter carrier Ise.

It may initially look like any other ship crest with the usual sword, shield, rope, ship name, pennant number and ship's motto but the red lion head motif stood out like a sore thumb as it is undoubtedly almost an exact copy of the national symbol of Singapore.



The reference logo marks on JMSDF website :
Kaga, Izumo, Maya, Ise, Hyuga and Murasame.



More reference logo marks from JMSDF FB



 The Two Lions



The Lion Head, a national symbol of Singapore
in pantone 032 ( red ).
Downloaded from National Heritage Board, Singapore


The Ise lion head for comparison



Comparing the two lion logos, it is not difficult to see that the Ise lion is a slightly modified version of the Singapore lion. Minor changes were made to the eye, the chin, the nose and the mane but the general outline of the logo does not differ much from the original Singapore lion. The similarities are too striking to be ignored.

But how would we know which is the original and which is the copy? Consider this : the Singapore lion logo has been designated a national symbol by the government of Singapore since 1986 while the helicopter carrier Ise was only launched in August 2009 and commissioned in March 2011. Its current logo mark was therefore designed and officially adopted sometime between 2009 and 2011.



The Singapore Lion Head Symbol




Singapore, a tiny sovereign nation in South East Asia, is also known as the Lion City. The Malay Annals has it that in the year 1299 Sang Nila Utama, a prince from Palembang, landed on the island of Temasek after his fleet survived a terrible tropical storm. He caught a fleeting sight of a strange animal with a red body, black head and white breast before it disappeared into the jungle and was told it was a lion. Believing it to be a good omen, he decided to build a new city there and renamed the island Singapura which in the Sanskrit language means " lion city ".

The lion has therefore been associated with Singapore since time in memorial and is indeed featured on its coat of arms. However, since the national flag and the coat of arms are official symbols of Singapore, their use would be restricted and subjected to strict regulations. A less formal symbol that is easily recognizable and distinctive to Singapore is required so that individuals, organizations and corporations may use it to promote a sense of national identity.

As such, the government of Singapore invited local art schools and advertising agencies to produce a new symbol that best exemplifies the characteristics of the nation. Among many entries that depicted high rise public housing, palm trees and various lions, a winning design emerged. The lion head logo created by Michael Lee, then 33 years old, senior art director with Gartshore Keer and Lim advertising agency, was selected and was adopted as Singapore's alternative national symbol in 1986.

The lion represents courage, strength and excellence. The symbol is set in solid red against a white background, the colours of Singapore's national flag. The five strands of the lion's mane represents Singapore's ideals of democracy, peace, progress, justice and equality.

The lion head symbol has since proliferated and can be frequently found printed on the packaging of made in Singapore produce and incorporated as company logos, among other things. By 1990, the Republic of Singapore Air Force has also replaced its old Yin and Yang inspired roundel with the lion head roundel.



The lion head roundel on the RSAF's F-15SG fighter.


Being one of the national symbols of Singapore means that the use of the lion head symbol still falls under some form of guideline. For example, the design may not be modified in any way or have any graphics or words superimposed over it. It can however be depicted in outline form, be embossed ( and perhaps also be debossed ) and be portrayed as a watermark. Its official colours are Pantone 032 ( red ), white and black.



The Straits Time of Singapore article 23rd July 1986
Source : National Library Board / SPH



JMSDF Helicopter Carrier Ise's Logo Mark



JDS Ise is a Hyuga-class helicopter destroyer of the JMSDF. Its name is derived from the ancient Japanese Province of Ise ( 伊勢国 Ise no kuni ), an area which in modern day covers most of Mie Prefecture in the Kinki region east of Osaka. Its namesake also includes the Ise Grand Shrine, one of the three most sacred Shinto shrines in Japan.

Despite being officially classified as a " helicopter carrying destroyer ", the Ise is actually helicopter carrier characterized by its flattop flight deck and island type bridge and control tower.



The JS Ise underway. Source : JMSDF



Unlike more recently commissioned JMSDF warships like the helicopter carrier Kaga or the destroyer Maya which had acquired their ship logo marks through design competitions open to the public, it seemed that the Ise had hers designed by her commanding officer, a certain Captain Hoshiyama Ryoichi ( 星山良一 ).

Hoshiyama graduated from the Japan National Defense Academy in 1982 ( 26th batch of graduates ). He was the last commanding officer of the helicopter destroyer Haruna ( DDH-141 ) from 2007 to 2009 after which he was appointed commanding officer of Pre-commissioning Unit Ise from 21st Aug 2009 to 15th Mar 2011 under the auspices of the Fleet Research & Development Command ( 開発隊群 ). He was also Ise's first commanding officer after her commissioning from 16th Mar 2011 to 31st Jul 2012. The list of current and past commanders of JDS Ise can be seen here, just above the footnote, in Japanese only.







Logo mark of JDS Ise ( DDH-182 )



The basic design of Ise's logo mark is that of an ovoid seal with golden coloured ropes at the rims. It has a central shield supported by two swords with the usual ship's motto on blue scrolls in English. This is very similar to the layout of the United States Navy ship's crest design and very different from the usual Japanese ship logo mark designs.

The flower motif, the hanabishi ( 花菱 ), represents the emblem of the Ise Grand Shrine and the green ladder-like design that leads to it represents the sanguukaidou ( 参宮街道 ), the path that the pilgrims take when they visit the shrine and it also represents the passage of time from the moment the shrine was constructed till modern day. The lion is supposed to signify the strength of Ise. The ship silhouette is of course the helicopter carrier Ise viewed from the front. 2011 was the year of her commissioning and the ship's motto is clearly spelled out in English : Readiness ( 即応 ), Expertness ( 高練度 ) and Integrity ( 誠実 ). The ship's name and pennant number were also included.



Hanabishi of the Ise Grand Shrine





Ship's crest of USS Truxtun DDG-103
exemplifies the usual American design.
Source : Wikipedia





The typical JMSDF ship logo mark is frequently round, simple and
elegant, with the ship's name in English as well as Japanese.
Source : JMSDF




Another example of JMSDF ship logo mark.
It is unconventional to have the ship's name written in kanji.
Source : JMSDF
 

Hoshiyama's lion head not only adorns Ise's logo mark, it is also found printed on Ise's promotional brochures, photo albums, wall-sized posters, sometimes in colours other than red. It has also made it onto many of the ship's official and unofficial paraphernalia like patches, badges, coasters, phone cases, collar pins, caps and mugs.



JDS Ise brochure Source : 4travel.jp



Commemorative Photo Album cover.
Source : blog.goo.ne.jp


Ise logo mark as wall backdrop for photo
taking during a public event in 2018





JDS Ise hangar screen : trained by a hundred battles 百戦練磨
 Source : 4travel.jp

Lion head symbol imprinted on a curtain.


Hoshiyama Ryouichi



Captain Hoshiyama Ryoichi as CO Ise in a photo dating from 2011.
The calligraphy on the wall reads " Ise ". Source : J-navy.sakura.ne.jp



 After his stint as the commanding officer of the Ise, Captain Hoshiyama was appointed Commander, Kure Fleet Training Command. According to published Japanese MOD documents ( Page 5 Number 5 ) on the re-employment status of retired senior officers, Hoshiyama retired on 9th Feb 2016 at the age of 56 years old, relinquishing his final post as the commander of the Sasebo Naval Base. He subsequently found employment in the private sector on 23rd Jun 2016, joining Imabari Ship Building Co. Ltd, Japan's biggest shipbuilder, as a senior manager in charged of workplace safety and quality control.


In my opinion, Hoshiyama's design looks amateurish and lacks the usual finesse and elegance typical of other Japanese warship logo marks. He tried to copy the structure of the American ship's badge but failed to understand the various components that made up the badge and his design ended up with a central shield that didn't quite look like a proper shield and was without a crest. The ship's motto was written in English rather than his native Japanese reflects the lack of originality. The designs on the shield also looks messy with the lion head, hanabishi, pilgrim's path and ship silhouette all over the place. The scroll on which the ship's motto was written also lacks contrast with the front and back of the scroll in different shades of blue and blue-grey.


Hoshiyama should be called upon to explain how he designed the logo mark of the Ise, in particular, how the lion head motif came to be. Did he knowingly or unknowingly copy the Singapore lion head symbol and modified it slightly to suit his purpose? If that was the case he would have been guilty of plagiarism and would have violated the regulations governing the use of Singapore's national symbol. To recapitulate, the lion head symbol should not be modified in any way and has to be used in a tasteful and respectful manner by Singaporean entities for promoting a sense of national identity. Foreign entities are therefore excluded from any authorized use of the symbol. The fact that this had gone unnoticed for so long was what amazed me. After all, JDS Ise did make a port call to Singapore in 2016 during the Asean Defense Minister's Meeting - Plus ( ADMM+ ). Somebody should have noticed something.

Frankly speaking, the JMSDF might be better off if it conducts a competition to redesign the Ise's logo mark. The collective talent of hundreds of amateur and professional artists and designers will certainly beat the artistic prowess of a ship's captain, hopefully resulting in a better logo mark. Unless, of course, if the JMSDF intends to donate the Ise to the Singapore Navy, then there is no real need to redesign anything apart from changing the Hoshiyama lion to the Singapore lion! Domo arigato gozaimasu!!


 










Thursday, 26 December 2019

JMSDF Kanoya Naval Aviation Museum

 


Kanoya Air Base Museum



I was in Kyushu in July for a trail run in the mountains of the Kirishima-Kinowan National Park amidst the torrential rain brought by Typhoon Danas. The weather was so severe that the course had to be shortened and the race terminated prematurely for many participants. Needless to say, I DNF.

Fortunately, the skies cleared the next morning and I took the opportunity to visit Japan Maritime Self Defense Force's ( JMSDF ) Kanoya Air Base Museum which is only about 60km from Kirishima City. JMSDF has in total three museums catering to different aspects of naval warfare in Kyushu and Honshu. The Sasebo museum deals with surface warfare, the Kure museum deals with undersea warfare and the Kanoya museum with naval aviation.


Kanoya Air Base And Museum


Kanoya is a city in Kagoshima Prefecture located in the remote south-eastern part of Kyushu Island. Due to its southerly latitude and its proximity to the southern seas, Kanoya Air Base was extensively used for Kamikaze operations in the closing days of World War II. Today, it is the headquarter of Fleet Air Wing 1 with its P-3C Orion maritime patrol aircraft ( and the P-1 since July 2019 ), UH-60J search and rescue helicopter, as well as TH-135 and SH-60 training squadrons.

The museum is located just outside of the airbase and is accessible to the public seven days a week except during the New Year holidays. Admission is free of charge.


History and Purpose


The museum is popularly known as the Kanoya Sky Museum ( 鹿屋スカイミュージアム ) in Japan. It first opened in December 1973 and received a total of 840640 visitors up till December 1991 when it was closed for renovations. The renewed museum was reopened in July 1993 and has received 1904613 visitors until December 2018, a monthly average of about 5000.

The design of the 2-storey main building is rather drape and unexciting. It houses some 5500 artifacts relating to the history of Kanoya Air Base under the administration of the Imperial Japanese Navy during World War II and also post war and modern JMSDF naval aviation activities. Not surprisingly, it has a special section dedicated to the Kamikaze pilots, many of whom took off from Kanoya never ever to return. A immaculately restored Mitsubishi A6M5 Model 52c Zero fighter is displayed in this indoor area.

The extensive outdoor display area has many legacy maritime patrol aircrafts like the P-2V Neptune, S2F-1 Tracker and rotary crafts like the KV-107II but the most unique has to be the Kawanishi H8K2 flying boat from WWII. It is the one and only surviving specimen in the entire world but more of that later.

As usual, the purpose of these Self Defense Force museums are always for publicity and recruitment. There is no conscription in post war Japan and the SDF is made up entirely of career soldiers and these are always in short supply, made worse by the declining birth rates and shrinking population. The museum show cases the activities and equipment of the SDF with the hope of enticing young men and women to join its ranks when they come of age.


The Indoor Exhibits


A large hall with high ceiling welcomes the visitor to the museum. At the receptionist counter, the visitor book has only two columns for your signature. One column for visitors from Kagoshima Prefecture and the other column for visitors from all the other 46 Prefectures of Japan. There is no provision for foreigners or non-Japanese visitors as the museum is not expecting ANY. It is remote enough that many of the Japanese themselves may not have known about it far less make a visit. As such, be warned that the displayed exhibits are mainly in Japanese language only.

A floor to ceiling stained glass art piece depicting the active volcano Sakurajima basking in the glow of the setting sun stands erect at the end of the entrance hall. Entitled Evening Glow on Sakurajima ( 夕映桜島 ) and crafted by artist Hirayama You, it was meant to recreate the last vision of Japan seen by the Kamikaze pilots as they depart Kanoya Air Base for their final suicide mission. The purpose of this art piece was purportedly to appease the spirits of these young men who sacrificed their lives for their country and to pray for world peace. It was installed at the museum in 1993.



Stained Glass panel Yuei Sakurajima ( 夕映桜島 )
 by Hirayama You ( 平山郁夫 )

Standing next to a pillar in front of the stained glass panel is a half sized bronze statue of a Kamikaze pilot entitled Special Attack Pilot's Statue ( 特攻隊員の像 Tokkoutaiin no Zou ) with a small display about the sculptor Fukushima Kiyohiko ( 福島精彦 ) who had to battle some chronic physical disability while sculpturing. These art pieces help set the tone for the extensive collection of Kamikaze related documents including dairies, last wills, photographs and personal belongings of the pilot that the visitor is about to encounter on level 2 of the museum



Special Attack Pilot's Statue by Fukushima Kiyohiko

Photography was strictly prohibited within the special exhibit area on the Kamikaze Special Attack Corps out of respect for the deceased members. It was a good place to learn about the history of the special attack units as long as you can understand Japanese and have plenty of time to spend at the museum. As I only had a couple of hours to spare, I moved on to the adjacent room where the main attraction of the museum was displayed - a restored Mitsubishi A6M5 Model 52c Zero fighter. This was the only location on the second floor where photography was permitted.



Mitsubishi A6M5 Model 52c Zerosen



The A6M5 Model 52c was an evolved late generation zero fighter that was first flown in Sep 1944. They were mainly used to intercept American B-29 bombers and for Kamikaze special attacks. The restoration effort has an interesting history as it combined the parts from 2 wreckages from different areas in Kagoshima. One was an A6M2b Model 21 salvaged from the beach near Tarumizu City ( 垂水市 ) which is located south of Sakurajima. The other was an A6M5 Model 52c fished from the seabed off Fukiagehama ( 吹上浜 ) in western Kagoshima.



Salvaging the Zerosen wreckages.


The reconstruction works must have been monumental but the museum did a fantastic job. The Zero fighter looked immaculate and the cockpit can be viewed at close range with all the instruments in place. It looks primitive compared with that of a more modern fighter like the F-5. Even the Nakajima Sakae Model 21 radial engine is displayed next to the aircraft.



View of the cockpit



The Nakajima Sakae Model 21 engine - 14 cylinder two-row air-cooled radial



The tail hook for catching the arrestor cable on the aircraft carrier flight deck



All around the Zerosen are scale models of ship and aircraft and photographs of admirals.

More displays await the visitor on the ground floor of the museum. You will come across many scale models of legacy anti-submarine patrol aircrafts like the P2V-7, P-2J, P-3C and amphibious aircrafts like the US-1 as you descend the stairs.



P2V-7, YS-11 and helicopter scale models



On the ground level, an entire section is dedicated to search and rescue operations ( SAR ) with the displays centering on the partial airframe of a decommissioned Mitsubishi S-61A Sea King SAR helicopter. The visitor can enter the cabin and cockpit of the helicopter, walk around and see the winch, life raft and rescue basket up close.


Mitsubishi S-61A Sea King SAR helicopter

Interior of the S-61A is surprisingly spacious


Life raft, rescue basket and flotation device 

 
Close up of rescue basket


S-61A cockpit

The S-61A Sea King has long since retired and has now been replaced by the UH-60J Sea Hawk helicopter in the SAR role.


Still on the ground level but at a different corner is the front section of a Kawasaki P-2J Neptune anti-submarine patrol aircraft on display. This aircraft was most likely P-2J serial number 4770. A total of 83 were produced by Kawasaki between 1969 and 1979 with the last aircraft being s/n 4783. All had been retired from service by 1995, replaced by the P-3C Orion. The visitor can step up to view the cockpit or crawl through to the nose cone.



Front section of a P-2J Neptune ASW aircraft, likely s/n 4770



P-2J nose cone



P-2J cockpit

This is also where one can learn everything about the Neptune variants. The various consoles within the P-2J were faithfully reconstructed as museum display complete with the instrument panels and even the seats. They include the work space for the 2 acoustic sensor operators, the Tactical Co-ordinator ( TACCO ), navigation officer, non-acoustic sensor operator ( radar, Magnetic Anomaly Detector, electronic warfare ) , communications officer and ordnance officer.


L-R : AW1 ( Acoustic 1), AW2 ( Acoustic 2 ), TACCO, Navigation,
AW3 ( non-acoustic sensors - Radar, MAD, EW )


 
Radio operator console




Wright R3350-32W Radial Engine



The Wright R3350-32W duplex cyclone 18 cylinder air-cooled radial engine that powered the P2V-7 is shown with parts of the propeller. A series of Japanese sonobuoys are also displayed from the primitive HQS-2 passive type sonobuoy with vacuum-tube technology to slightly more advanced all-transistor versions like the HQS-4 and its successor HQS-6 and even later versions HQS-12, HQS-31 and HQS-33. The JMSDF used US made sonobuoys from 1954, its year of inauguration, until 1958. From 1959 only domestically developed sonobuoys were deployed.



Cutaway display of various Japanese developed passive type sonobuoys

 
HQS-5D sonobuoy with parachute



A Mk 34 acoustic torpedo and a Mk 44 air-launched lightweight torpedo are on display with a ATM-84D air-launched Harpoon missile which can be carried by the P-3C Orion.  A replica of a contact type sea mine is also exhibited in front of the nose of the P-2J.



Mk 34 Acoustic Torpedo ( front ) and Mk 44 Air Launched Lightweight Torpedo ( back ) 

 
A replica of the Harpoon missile on the pylon of an ASW patrol aircraft


Contact type sea mine


JMSDF uniforms

So that more or less wraps up the museum's indoor displays. There are of course a few miscellaneous exhibits like uniforms, rank insignias, museum mascots and odds and ends but the outdoor aircraft displays awaits.




The Kanoya Sky Museum with its extensive outdoor exhibition of legacy naval aircrafts


Outdoor Aircraft Collection


The over the years the Kanoya Air Base Museum has amassed a huge collection of legacy naval fixed wing and rotary assets. They include amphibious planes like the Shinmeiwa US-1, maritime patrol aircrafts like the Lockheed P2V-7 and S2F Tracker, trainers like the Beechcraft B-65 Queen Air and the Beech SNB-4 Expeditor, Kawasaki KV-107II mine sweeping helicopter, the ancient looking Bell 47 trainer helicopter, Kawasaki OH-6D and many more. Some like the Kawanishi H8K2 flying boat shown below is unique to this museum and can be found nowhere else.


Kawanishi H8K2 Model 12



The last Kawanishi H8K2 Model 12 on display at Kanoya
Allied reporting name " Emily " Source Wikipedia.


This large aircraft is known as the Nishiki Hikotei ( 二式飛行艇 ) or Type 2 flying boat in Japanese. It was considered one of the most outstanding maritime combat aircraft of WWII with its large capacity, long endurance and strong defensive armaments. The allied reporting name for the H8K was " Emily ". Of  all the 167 built, this aircraft is the sole surviving specimen.

Unsurprisingly, the museum has made the H8K Nishiki Hikotei the official museum mascot and has created a caricature in the form of a flying whale called Nishiki Don. It has a counterpart that looks like a doggie with flappy ears that resemble wings called Hikotaro which means flying Taro. Taro ( 太郎 ) is a very common Japanese name for the male gender. The Hikotaro character was created to mark the museum's 25th anniversary.

You can read about the H8K2 Emily in my separate blog post here.


The museum mascot Nishiki Don


The sidekick Hikotaro created for the museum's 25th anniversary


Shin Meiwa US-1A



Next, the Shin Meiwa US-1A STOL Amphibian for Search and Rescue is probably also unique to this museum. The US-1A flying boat had been in service with the JMSDF only and had never been sold to any foreign nation. Affectionately known as Otori ( おおとり ) or Big Bird, the US-1A was credited with saving more than 500 lives from 1976 until 2017 when the type was retired from service.



The Shin Meiwa US-1A Amphibious SAR flying boat.



The US-1A with a Kawasaki P-2J in the background


 
The unique shape of the wave suppressor is clearly seen here


 
The swiveling landing gear made the US-1A a true amphibian


Grumman S2F-1 Tracker


Between 1957 and 1959, the fledging JMSDF received a total of 60 Grumman S2F-1 anti-submarine patrol aircraft under the Military Aid Program from the US. The S2F was the world's first purpose built single airframe ASW aircraft. It was later re-designated the S-2 Tracker. The Japanese nick-named theirs the Aotaka ( あおたか ) which most likely means blue eagle. The S-2 was powered by two Wright R-1820-82WA radials and could be armed with torpedoes, depth charges and rockets. The last of JMSDF's S-2F1 was retired on 30th Mar 1983.



Grumman S-2F1 ( S-2A ) with dorsally mounted ESM pod



Side view of S-2F1 ( 4131 )

 
 
Rear view of S-2F1

Kawasaki P2V-7 Neptune


The JMSDF operated a total of 64 P2V-7 Neptune land based anti-submarine patrol bomber beginning from 1956. The first 16 aircrafts were transferred from the USN while the rest were either assembled or manufactured by Kawasaki. Together with the carrier capable S-2F1 Tracker, it formed the mainstay of JMSDF's aerial ASW asset. The Japanese nick name is Owashi ( おおわし ) meaning Big Eagle.

The P2V is powered by two Wright R-3350 32W radials augmented by two Westinghouse J34-WE-34 turbojets. The JMSDF retired its last P2V-7 in 1981.




The P2V-7 can be distinguished from the P-2J by its
4 bladed propeller and single wheel on the main landing gear



Kawasaki P-2J Neptune



The museum also has not one but 2 Kawasaki P-2J Neptune ASW patrol planes on display, though not unique to Kanoya, as far as I am aware, only the Kakamigahara Aerospace Museum in Gifu Prefecture has another P-2J on display. The P-2J was the license-produced and upgraded version of the Lockheed P2V-7. The radial engines of the P2V-7 were replaced by turboprops and the P-2J used 3 bladed propellers instead of the 4 bladed ones found on the P2V-7. The P-2J's main landing gear has 2 smaller wheels unlike the P2V-7 which has one single large wheel.

A total of 83 P-2Js had been produced with 82 new builds and one converted from a P2V-7. All P-2Js had been retired from service by May 1994.




P-2J serial number 4771



P-2J serial number 4771



P-2J serial number 4783



The turboprop engine with a 3 bladed propeller
and the smaller turbojet mounted next to it.
Note the two wheels on the main landing gear. 

 
 
 

Fuji KM-2


The Fuji KM-2 was the licence-built version of the Beechcraft T-34 Mentor trainer. The JMSDF had 62 KM-2 as its primary trainer. It was nicknamed komadori ( こまどり ) which means robin in Japanese. All had been ben retired by 1998 but many improved versions spawned from the original KM-2. The KM-2B ultimately became mass produced as the T-3. The KM-2D had a turboprop engine and was mass produced as the T-5. The KM-2F aka T-3 kai ( improved T-3 ) was mass produced as the T-7.



Fuji KM-2 Trainer



The KM-2 : Mother Of All Trainers

 

Beechcraft SNB-4

 
The SNB-4 was the military derivative of the venerable Beechcraft Model 18. The JMSDF was provided with 35 SNB-4/5 in 1957 and deployed them for instrument flight training and navigation training until their retirement in 1966. They were nicknamed benibato ( べにばと ) which means red turtle dove. They were eventually replaced with the Beechcraft B-65.
 

The Beechcraft SNB-4

 
The Beechcraft SNB-4



Beechcraft B-65


Between 1963 to 1967 the JMSDF took in 28 Beechcraft B-65 Queen Air as trainers. The JMSDF has been using them as trainers for multi-engine aircrafts like the P-2J. They were nicknamed umibato ( うみばと ) which means pigeon guillemot. The B-65 were gradually being replaced by the TC-90 from 1974 and all have been retired by 1990.

 
 
The Beechcraft B-65 Trainer
 
 
This Queen Air's vertical stabilizer seem to be missing its rudders


B-65 Queen Air


Douglas R4D-6Q


The R4D is the USN / USMC variant of the C-47 Skytrain / Dakota. The R4D-6Q is basically the C-47B ( later redesignated C-47J in 1962 ). The JMSDF had received a total of 3 aircrafts in 1958 one of which strictly speaking was an R4D-7. It was nicknamed manatsuru ( まなつる ) meaning white-nape crane. They were then the only transport planes of the JMSDF. They were replaced by the YS-11 in 1971. Two of the aircrafts were purchased by the US and sold to the Philippines leaving the last one on display at Kanoya.
 
 
 
Douglas R4D-6Q ( C-47B )







Kawasaki Vertol KV-107II



The Kawasaki Vertol KV-107II was the license-built version of the Boeing Vertol CH-46 Sea Knight medium lift helicopter. The JMSDF acquired a total of 9 such helicopters in 2 batches for mine sweeping duties and nicknamed them shirasagi ( しらさぎ ) which means white heron. The initial 2 helicopters were the KV-107II-3 model while the later 7 helicopters were the improved KV-107IIA-3 model. The displayed helicopter with serial number 8608 belongs to the later model.



The Kawasaki Vertol KV-107IIA-3 mine sweeping helicopter
  
 
Rear view of the KV-107IIA-3


Mitsubishi HSS-2A



The Mitsubishi HSS-2A is the license-built version of the Sikorsky S-61B ( SH-3D ) Sea King anti-submarine warfare helicopter. 28 were built beginning in 1963. In addition JMSDF had another 55 HSS-2 ( SH-3A ) and 23 HSS-2B ( SH-3H ). The HSS-2B had been taken out of service in 2003.




Mitsubishi HSS-2A ASW helicopter


The HSS-2A next to the bus bay of the car park


Bell 47G-2


The Bell 47G-2 ( H-13H ) was license-produced by Kawasaki between 1954 to 1964. It had wooden rotors and 75 were built. It was nicknamed hibari ( ひばり ) meaning sky lark. It was mainly used for training, liaison and observation. It had been retired from service in 1982.



Bell 47G-2




Kawasaki / Bell 47G-2

Kawasaki OH-6D


The JMSDF acquired 14 Kawasaki OH-6D for pilot training manufactured under license from Hughes Helicopters ( now Boeing ). All have been retired by 2011 and had been replaced by the MD-500, the civilian version of the OH-6 which is still in production.



Kawasaki OH-6D next to parking lot


Main anchor of the IJN battleship Hiei ( 比叡 )
on display on museum grounds



Is Kanoya Worth Visiting?


With so many interesting exhibits, Kanoya Air Base Museum is definitely a must visit site for military enthusiasts. A chance to see the world's last Kawanishi H8K2 Emily flying boat close-up already makes the trip worth while. Having said that, the museum is not without its short comings.

Its remoteness makes accessibility a real issue especially when the rail service does not extend to Kanoya. There are regular buses plying the Kagoshima - Kanoya route but it takes 2 hours one way and will cost about $18. Driving there in a rental car is probably a marginally better option but it still takes 1 hour 40 minutes through toll road. Fortunately there are ample parking spaces available and parking is free.

I noticed that most of the JMSDF aircrafts on display were those that had long retired and the museum lacks more modern aircrafts. The TC-90 trainer and the P-3C maritime patrol aircraft can be candidates to consider as both are being gradually retired. Scale models of the latest aircrafts like the Kawasaki P-1 can also be added to give the museum a more contemporary feel.

Another glaring deficiency is the state of the outdoor aircraft exhibit. Apart from the H8K2 flying boat, most of the aircrafts on display on the sprawling grounds around the museum looked somewhat neglected with weather-worn paintwork and even missing parts. If only these old warbirds could be repainted periodically and have some basic maintenance to spruce them up.

Without a roof to provide protection from the elements, the condition of the displayed aircrafts can only gradually deteriorate with time. I hope the JMSDF will consider building a large hangar as a permanent housing for the aircrafts, perhaps during the museum's next renovation. With typhoons getting more frequent and ferocious due to global warming, I do not think displaying the aircrafts out in the open is a wise option moving forward. The proximity of Kanoya Air Base to Sakurajima, one of the most active volcanoes in the world, also means that should a major eruption occur, all those precious aircrafts could be damaged.

Lastly, if you have gone that far south in Kyushu, also consider visiting the Chiran Peace Museum in Kagoshima which is dedicated to commemorating the pilots of the Kamikaze Special Attack squadrons. It's an hour's drive south of Kagoshima City, or about 3 hours from Kanoya on the other side of Kagoshima Bay.