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Fish hook sea bed SOSUS network

zebra7

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Ok I am starting a thread on the claimed SOSUS network been worked between India, Japan and U.S jointly to increase the survellance and lower down the SUB threads in the India ocean and the South China Sea specially to curtain PLAN sub capabilities.

Undersea Webs

A web of strategic projects is now taking firm shape as India enters into closer multilateral military cooperation relationships with Japan, Australia and the United States, as well as regional powers like Indonesia, Malaysia, Singapore and Vietnam. Matters began taking on urgency in late September 2014, after US President Barack Obama and PM Modi have pledged to intensify cooperation in maritime security. Following this, on March 16, 2015 the defence ministers of the 10-member Association of Southeast Asian Nations (ASEAN) at the end of the two-day 9th ASEAN Defence Ministers’ Meeting in Langkawi, Malaysia, collectively stated that they wanted India to play a far bigger role in both the Indian Ocean Region (IOR) and the South China Sea.

In the near future, therefore, under the auspices of the US–India Defence Framework Agreement, foundational pacts like the Logistics Exchange Memorandum of Agreement (LEMOA), Communication Interoperability and Security Memorandum Agreement (CISMOA), and Basic Exchange and Cooperation Agreement for Geo-Spatial Cooperation (BECA), are likely to be inked by the two countries later this year. Concurrently, Japan can be expected to extend funding from the Japan International Cooperation Agency for the upgradation of naval air bases and construction of new ELINT/SIGINT stations along the Andaman and Nicobar chain of islands, which is made up of 572 islands (of which only 34 are presently inhabited), stretching around 470 miles north to south. But most importantly, preliminary planning has commenced on a Japan-financed project that calls for 1) laying of an undersea optical fibre cable from Chennai to Port Blair; and 2) the construction of an undersea network of seabed-based surveillance sensors stretching from the tip of Sumatra right up to Indira Point. Once completed, this network will be an integral part of the existing US-Japan ‘Fish Hook’ sound surveillance (SOSUS) network that will play a pivotal role in constantly monitoring all submarine patrols mounted by China’s PLA Navy (PLAN) in both the South China Sea and the IOR. This network will in turn be networked with the Indian Navy’s (IN) high-bandwidth National Command Control and Communications Intelligence network (NC3I), which has been set up under the IN’s National Maritime Domain Awareness (NMDA) project at a cost of Rs.1,003 crores. At the heart of the NC3I is the Gurgaon-based, Rs.453 crore Information Management and Analysis Centre (IMAC), whose systems integration software packages were supplied by Raytheon and CISCO.

Oblique references to all these developments were made in the joint statement that was issued last month after the visiting US Secretary of Defense Ashton Carter held delegation-level talks with his Indian counterpart Manohar Parrikar. The joint statement spoke about:

A) new opportunities to deepen cooperation in maritime security and maritime domain awareness;
B) commencement of navy-to-navy discussions on submarine safety and anti-submarine warfare; and
C) enhancing on-going navy-to-navy discussions to cover submarine-related issues.

US-Japan%2BFish%2BHook%2BSOSUS%2Bnetwork.jpg

The US was always interested in Japanese and Indian locations for its SOSUS stations. Initially called Project Caesar, this involved running cables out on continental shelves and connecting them to hydrophones suspended above the sea bottom at optimum signal depths. An ‘experimental station’ was established at the north-western tip of Hokkaido in 1957, with the cable extending into the Soya (La Perouse) Strait. It monitored all Soviet submarine traffic going in and out of Vladivostok and Nakhodka in the Sea of Japan. Undersea surveillance systems and associated shore-based data collection stations code-named Barrier and Bronco were installed in Japan in the 1960s. Acoustic data collected at these sites was transmitted by US defence communications satellites to US Navy (USN) processing and analysis centres in the US. In the 1970s, a network between between Japan and the Korean Peninsula was commissioned. By 1980, three stations at Wakkanai (designated JAP-4), Tsushima (JAP-108) and the Ryukyu Islands (RYU-80) were operational in Japan, along with earlier stations built in the Tsushima Straits and the Okinawa area. The existence of old cables at Horonai Point in north-west Honshu, which during the Cold War led out to SOSUS arrays in the Sea of Japan, has been widely described by scuba divers. By the mid-1980s the SOSUS hydrophone arrays stretched from southern Japan to The Philippines, covering the approaches to China. After the collapse of the USSR and the decline of the submarine threat to the US in the early 1990s, the USN allowed its SOSUS systems in the north-west Pacific to atrophy, although some arrays were retained in working order so as to support civilian scientific research (such as tracking whales and monitoring undersea volcanic activity). According to a USN directive issued in August 1994, all seabed-based fixed-arrays in the Pacific were placed on ‘hot standby’; personnel would ‘not be routinely assigned to monitor fixed-array data’ unless that data was required for operational purposes, but in practice the probability of being able to reconstitute them to full operational status was ‘extremely low’.


Naval%2BAlternate%2BOperational%2BBase%2BProject%2BVarsha.jpg


However, in the early 2000s, facing an increasing PLAN submarine force and more aggressive PLAN submarine patrols, the USN decided that it needed a new chain of fixed arrays designed primarily to monitor the movement of PLAN submarines between the East China Sea and South China Sea on the one hand, and between the Pacific Ocean and the Indian Ocean on the other. Thus was born the US-Japan ‘Fish Hook Undersea Defense Line’ in early 2005, stretching from Japan southwards to Southeast Asia, with key nodes at Okinawa, Guam and Taiwan. Beginning from near Kagoshima in the southwest part of Kyushu, it runs down the Osumi archipelago to Okinawa, then to Miyako-jima and Yonaguni in the southern part of the Ryukyu Islands, past Taiwan to the Balabac Islands in The Philippines, to Lomkok in the eastern part of the Indonesian archipelago, across the Sunda Strait between Java and Sumatra, and from northern Sumatra to the Andaman and Nicobar Islands. Three major gaps—between Yonaguni and Suao in north-east Taiwan (120km), between Kaohsiung in south-western Taiwan and the Dongsha (Pratas) Islands (450km) where the East China Sea meets the South China Sea, and across the Bashi Channel (220km) between Hengchun at Taiwan’s southernmost tip and Luzon Island in The Philippines—were plugged. In addition, the USN installed a new SOSUS network, stretching from Sasebo down to Okinawa, in 2006, when the US cable-laying ship USNS Zeus operated together with oceanographic survey vessels and nuclear submarines in this area. In July 2013, Beijing claimed that the US and Japan had jointly established ‘very large underwater monitoring systems’ at the northern and southern ends of Taiwan. One of these stretched from Yonaguni to the Senkaku Islands (about 150km), while the other covered the Bashi Channel down to The Philippines. Thus, this US-Japan undersea trip-wire around the PLAN presently extends across the Tsushima Strait between Japan and the Korean Peninsula, and from Japan’s southern main island of Kyushu down past Taiwan to The Philippines. The curve of the hook stretches across the Java Sea from Kalimantan to Java, across the Sunda Strait between Java and Sumatra, and from the northern tip of Sumatra along the eastern side of India’s Andaman and Nicobar island chain. Real-time information-sharing between the US and Japan joins the undersea defence line-up, effectively drawing a tight arc around Southeast Asia, from the Andaman Sea to Japan.

Edited to add picture
 
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@PARIKRAMA

Could you tag the members pls.

Here is something which justify his claim

US DoD Press Conference on 29-8-2016


Listen to what he says from 17.10 till 22.27 about the maritime awareness domain & the Andaman Sea, when no one even asked him about that sea. This can be reasonably inferred that he certainly had in mind what PSK had originally written about the 'Fish Hook' seabed surveillance network & he took special care to mention the term 'Andaman Sea'

Growing Tentacles

The PLAN presently has an estimated 60 double-hulled submarines, of which 51 are diesel-electric SSKs (two Type 877EKM, ten Type 636, 13 Type 039 Song-class, four S-20/Type 041A Yuan-class, four S-20/Type 041B Yuan-class and 18 Type 035 Ming-class) and eight (four Type 091 Han-class and four Type 093 Shang-class) are nuclear-powered SSNs. In addition, there’s one Type 092 Xia-class and two Type 094 Jin-class SSBNs, with five more of the latter due for delivery in future. Also due for procurement in future are 15 single-hulled SSKs (most likely Russia’s Amur 1650-class) powered by indigenously-developed Stirling Engine air-independent propulsion systems. The number of PLAN submarine sorties has approximately quadrupled over the last seven years, with an average of 12 patrols being conducted each year between 2008 and 2015, following on from six in 2007, two 2006 none in 2005. In the Indian Ocean region (IOR), the PLAN has so far carried out three submarine patrols (all accompanied by Type 925/Type 926 submarine tenders), with the submarines being kept its vessels out at sea for 95 days during each patrol.




The PLAN’s first SSN patrol within the IOR lasted from December 3, 2013 till February 12, 2014. One Type 093 Shang-class boat left Longpo its bastion at Yulin on December 3. Ten days later, on December 13, the SSN reached the Gulf of Aden via the Ombai Wetar Strait near Indonesia. It remained on patrol in the area for nearly two months. Next to follow was the Type 039 Song-class SSK ‘Great Wall 0329’, which later docked at the China-funded Colombo International Container Terminal in Sri Lanka from September 7 to 14, 2014 along with the Type 925-class tender 861 Changxingdao. This was followed by a patrol of a Type 091 SSN from December 13, 2014 to February 14, 2015. Next came a S-20/Type 041A Yuan-class SSK that docked at Pakistan’s Karachi port in late May 2015, and was accompanied by a Type 925 Dajiang-class submarine tender. From this, it can be deduced that in the years to come, the PLAN will continue with this practice of launching at the very least two annual long-distance patrols—one each by an SSN and SSK—into the IOR. Entry while remaining submerged into the IOR from either the South China Sea or the Pacific Ocean will be made through either the Lombok Strait or the Ombai Wetar Straits astride Indonesia.





During future hostilities with either the US or India, the most likely destinations of PLAN’s SSNs within the IOR will be the area around Diego Garcia and the Chagos Trench. Diego Garcia is part of the Chagos Archipelago, situated on the southernmost part of the Chagos-Laccadive Ridge. To the east lies the Chagos Trench, a 400 mile-long underwater canyon that ranges in depth from less than 1,000 metres to more than 5,000 metres, and the most likely area where the IN’s SSBNs will be lurking during operational patrols.



All vessels, including warships, enjoy the right of innocent passage through archipelagic waters. Innocent passage requires a vessel to conduct continuous and expeditious transit in a manner that is not prejudicial to the peace, good order or security of the archipelagic state. For a submarine, innocent passage means transiting on the surface, as is the case with the Malacca Strait. But the Lombok Strait astride Indonesia is not considered archipelagic waters, rather it is part of an Archipelagic Sea Lane (ASL) that carves a path from Lombok in southwest Indian Ocean, through the Flores Sea, the Makassar Strait, the Sulawesi and Celebes Seas and on to the Pacific Ocean. It is like this because Indonesia desires sovereignty within the archipelago beyond the normal 12nm territorial water limit, which can be granted in relation to archipelagic states in certain circumstances, provided the ASLs are designated. For a submarine, normal passage means transiting submerged. The other interesting thing about ASLs is that, unlike innocent passage through archipelagic waters, which can be suspended temporarily on a non-discriminatory basis, this is not the case for ASLs. Any PLAN submarine can legally transit Lombok dived. If it chooses to loiter illegally and then gets caught, it can feign normal passage.




Unlike the Sunda Strait—which forms part of a separate ASL, but is realistically too shallow for dived passage by all but the most daring/lucky of submarine operators—the Lombok Strait is relatively deep (varying between 800 and 1,000 metres). At the southern end of the Strait, where the channel is divided by the Island of Nusa Penida, a shallow sill is located. Depths rise to between 200 and 250 metres in the channel to the east of Nusa Penida. The sill is of huge importance to the oceanographic behaviour in the Strait, particularly since the Lombok Sea serves as one of two outlets (the other being the Timor Passage) for a great body of warm water that flows from the Pacific to the Indian Ocean—the so called Indonesian Throughflow. This sill, coupled with the Throughflow and tidal flow, results in relatively large current flows, typically from north to south, but is sometimes reversed. Current flows near the sill can reach 3.5 metres per second during spring tide periods. In the deeper water to the north of the sill it slows to between 0.2 to 0.5 metres. It must be noted, however, that current velocities vary as a function of depth. The upper 100 metres carry 50% of the total water transport through the Lombok Strait. Current velocities are, therefore, maximum at the surface with a sharp decrease from 75 to 300 metres. These currents are a quite significant for submarine operations, particularly diesel-electric SSKs, which must conserve battery life or that cannot take advantage of the deeper areas where the current is minimal. They also create interesting and complicated acoustic conditions for sonar on account of the varying temperature and salinity gradients across the current-related layers.

China’s Undersea Trip-Wire
The PLAN’s seabed-based surveillance network, developed jointly by Ukraine and China since 1996, has been under installation along China's territorial waters since 2012, with work expected to be completed later this year. The seabed-based component of this network comprises arrays of hydrophones and magnetic anomaly detectors spaced along undersea cables laid at the axis of deep sound-channels roughly normal to the direction that the arrays are to listen. This capability is next paired with maritime reconnaissance/ASW aircraft assets to establish a multi-tier ASW network. The first naval bases to be covered by this network were the PLAN’s submarine bases in four sites: the Bohai shipyard at Huludao on the Bohai Sea where all nuclear-powered submarines are built; the North Sea Fleet’s Xiaopingdao naval refit base near Dalian where the SSBNs are fitted out for SLBM test-firings from the Bohai Sea across China into Delingha in the Qinghai desert and the desert of Lop Nor in Xinjiang; the North Sea Fleet’s base at Jianggezhuang (Laoshan) approximately 18km east of Qingdao in Shandong Province; and the South Sea Fleet’s bases at Longpo and Yulin at Yalong Bay near Sanya on the southern tip of Hainan Island.
Elements%2Bof%2BPLAN%2527s%2BSOSUS%2Bnetwork.jpg

As far back as 2001, a researcher at the PLAN’s Institute 715 had published a survey of ocean surveillance technologies that included a detailed discussion of the US SOSUS programme. Later, one of the most detailed discussions of China’s seabed-based surveillance networks appeared in the journal Shandong Science in 2010. However, Shandong was apparently not the only coastal area pushing forward with R & D on seabed-based sensors. Further down south and located near Shanghai at the mouth of large Hangzhou Bay, an ‘East Sea Ocean Floor Observation Test Station’, also known as the Xiaoqushan Station, was discussed extensively by Chinese researchers in an article appearing in Science Bulletin in 2011. Focussing on the collection of a variety of oceanographic information—tidal and current data, for example—experimentation with sonars is presently ongoing at this station with a wireless data-collection system that was commissioned into service in April 2009. Another analysis by several PLAN researchers in late 2012 discussed this station and military applications for its seabed-based sensors, alongside civilian uses, including environmental protection, navigation, and disaster prevention. The analysis compared different configurations for seabed-based sensor networks, including linear, circular, and tree-type designs, and also evaluating their respective cost, security and reliability implications. It also mentioned the Xiaoqushan Station as the basis for a larger ‘East Sea Ocean Floor Sensor Network’ that will be completed by 2016. The analysis also mentioned undersea mobile sensor stations, as well as fixed seabed sensors.

In early 2013, China Science Daily’s March 26 edition opted to go public with the system by publishing a feature with the banner headline: “Here They Are Quietly Listening to the Ocean: The Whole Story of the Building of Our Country’s First Deep Sea Ocean Floor Sensor Network Base”. According to this article, R & D efforts had commenced in 1996 and an initial prototype of the seabed-based sensor system was tested back in 2005 in the waters surrounding the PLAN’s base at Qingdao in Shandong Province. An additional site was selected for the Longpo naval base, and work formally commenced there in April 2009. Initial set-up was completed in 2010. The undersea-sensor system has since been integrated with a larger surveillance network that also has airborne and space-based components. Two articles appearing in mid-2013 in the technical journal Ship Electronic Engineering, confirmed that this network was now at an active deployment stage. One article discussed the technical challenge of energy supply by proposing a low-power ‘sleep-wake mode’, and mentioned the interesting additional problem that a country’s undersea sensors are subject to being captured by an adversary. Another article discussed the importance of advances in ‘burst communications’ for enhancing the military value of the seabed-based sensor network. A mid-2012 analysis in the naval magazine Modern Ships unequivocally confirmed the existence of PLAN’s network of seabed-based sensors. The cover-story of a second quasi-official naval journal, Naval & Merchant Ships from mid-2013, similarly showed an acute PLAN sensitivity to its perceived vulnerability to Western and Japanese submarines. The central concern shown there was protecting the PLAN’s SSBNs, while the main threat vector mentioned was the USN.
Type%2B094%2BJin-class%2BSSBN.jpg

Moreover, it put forward a plausible theory of limited war in the nuclear age: “Limited war theory does not permit the enemy country to become a target. But to win the war one must defeat the enemy’s military forces so that the SSBN can become the ideal target.” The article asserted that the range of PLAN’s SLBMs (the JL-2 SLBM on the Type 094 Jin-class SSBN has a range of 7,400km) must be extended “so that one-way passage to the patrol area is shortened to 5-10 days.” At present, all PLAN-operated submarines are evaluated to be highly vulnerable to detection from “US warships employing active sonar as well as US Navy SSNs lurking near Chinese harbours.” To address this dire situation, the seabed-based surveillance system is deemed critical: “Among the various ASW elements, the seabed-based surveillance system is the foundation and heart, offering advanced warning for the sortie of ASW aircraft and light warship escorts.” The article continued: “The hardest part of ASW is early detection. If China can only find the targets, PLAN’s ASW forces can then apply pressure against the activities of US submarines, limiting their intelligence and attack capabilities.” While this article discusses other critical ASW elements—even highlighting the role of aircraft carriers, for example—a clear focus and conclusion of this analysis is the priority to deploy seabed-based surveillance systems. It envisioned a sequential process: “In order for China to build a relatively tight ASW network, we must first [outside of all major fleet bases] construct fixed seabed sonar arrays for continuous surveillance and control of sea areas close to ports.” The analysis further advocates that after building a network proximate to its naval bases, the PLAN should deploy seabed-based sonar arrays to the west of Okinawa, to the east of Taiwan, and into the Luzon Strait.” Nor should China’s ambitions for undersea surveillance be restricted to the “near seas,” according to this analysis, as it suggested that more distant areas, such as the Bay of Bengal, may be appropriate sites for future Chinese seabed-based sonar arrays “in order to support ASW operations in those sea areas.”
 
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unlike in past only talks and claims of progress, here we can see and sense on ground the development of Defence relationship b/w us. And its only going to higher and higher ..........
Now I first time felt India will get Aero engine Tech from US.
 
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Some points

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  • SeaWeb is not only about surveillance but a system that relies on a huge electronic database with most of the data stored in the US.
  • The closest allies of the US can access and benefit from SeaWeb through a variety of means including installing hardware and software portions of submarine combat systems.
  • These “keys” are expensive but may well be worth it. It is important to the US that allies pay “rent” for the installation and maintenance of SeaWeb.
  • The allies also add to the database in peace and war.
  • SeaWeb has many mobile and fixed platforms. Mobile include submarines and fixed include undersea arrays. The undersea arrays utilize several sensor technologies - not just the older term SOSUS which implies sonar-acoustic sensors only.
  • “Submarines are supported by intelligence before they deploy and continuously throughout their mission. Intelligence can come from a wide range of sources with different levels of importance, but often from highly sensitive sources that need to be protected and need special communications handling. Some elements of the combat system have to be certified to handle such sensitive information so that it can be integrated with its own onboard data, and some members of the crew need to have the appropriate access rights for its use.”
Source: http://gentleseas.blogspot.in/2015/09/how-to-trap-chinese-dragon-seawebs.html


+++
'Fish Hook' line
But a new study by two Australian experts suggests it is the Chinese who are cornered. Desmond Ball, the Australian National University nuclear strategist and analyst of electronic spy craft, and Richard Tanter, of Melbourne University, an expert on North-East Asian security and nuclear issues, suggest Japan and the US have China’s forces surrounded by trip-wires.

Their book, The Tools of Owatatsumi, reported here for the first time, details the networks of undersea hydrophones and magnetic anomaly detectors that, combined with data collected by ground stations, patrol aircraft and satellites, make it virtually impossible for Chinese ships and submarines to break out into the wider ocean undetected. In effect, a line of sensors has been drawn in the sea.

The trip-wire around the Chinese navy extends across the Tsushima Strait between Japan and Korea, and from Japan’s southern main island of Kyushu down past Taiwan to the Philippines. When first revealed, in a little-noticed article by Taiwan military intelligence official Liao Wen-chung in 2005, it was described as a “Fish Hook Undersea Defence Line”.

Controversially, the curve of the hook stretches across the Java Sea from Kalimantan to Java, across the Sunda Strait between Java and Sumatra, and from the northern tip of Sumatra along the eastern side of India’s Andaman and Nicobar island chain. Unlike the northern stretches around Japan and Taiwan, these extensions into South-East Asia would be largely American installed and operated.

Indonesia and India, both historic adherents of non-alignment despite recent warming to the US in the face of rising Chinese power, would be loath to admit to allowing the Americans to wire up their nearby waters, and would be perhaps even more embarrassed to learn that it had been done without their permission or knowledge.

Ball himself is not sure whether these South-East Asian sections of the line consist of fixed acoustic surveillance arrays in the manner of the long northern sections from Tsushima down past the Philippines. “I would expect the more southern segments to have been fully surveyed and prepared for expeditious deployment of other elements of the integrated undersea surveillance system in contingent circumstances,” he told The Saturday Paper.

These include towed arrays trailing behind surface ships and small acoustic sensors that can be scattered across the seabed unobtrusively at short notice in a program called the Advanced Deployable System.

“Outward movement of the Chinese subs based at Hainan would be very closely monitored, whether they headed south or north,” Ball said.

Information sharing between the US and Japan joins the undersea defence line up, effectively drawing a tight arc around South-East Asia, from the Bay of Bengal to Japan. Chinese vessels, above or below water, can’t move in or out of this net without being spotted by their rivals.

It is with all this in mind that one might reconsider the purpose of the US-led Exercise Balikatan in the Philippines – and the presence of the RAAF’s AP-3C Orion. It is for fishing inside the net.

The undersea system has not gone unnoticed by the Chinese. Their surveillance ships have sailed close to the Japanese shore stations where data from the arrays is processed. In 2006, Japan arrested for espionage a naval petty officer at its Tsushima Island anti-submarine base. He had made eight trips to Shanghai and been compromised by a relationship with a hostess from a karaoke bar.

In July 2013, Chinese newspapers reported that Japan and the US had built “very large underwater monitoring systems” north and south of Taiwan, and that large numbers of hydrophones had been installed “in Chinese waters” close to Chinese submarine bases.

More recently China has raised the alarm at the commissioning of Japan’s largest post-1945 warship, the helicopter carrier Izumo, which could be modified to carry the jump-jet version of the F-35 strike fighter, and at the Abe government’s floating of the idea of extending Japan’s air and sea patrols into the South China Sea.

“The underwater approaches to Japan are now guarded by the most advanced submarine detection system in the world,” Ball and Tanter write. In addition, the “Fish Hook” ensures that Chinese submarines are unable to move undetected from either the East China Sea or the South China Sea into the Pacific Ocean. “It suggests that even without recourse to the overwhelming US assets, Japan would be ascendant in any postulated submarine engagement with China,” they said.

While this leaves the Chinese able to reinforce their positions in the South China Sea against the weaker regional claimants to territory – Vietnam, Malaysia, Indonesia, Brunei, the Philippines and Taiwan as the alterative China – it might suggest a comfortable level of conventional deterrence held by Japan and reduce the prospect of war between East Asia’s two biggest powers and Australia’s two biggest trading partners.

https://www.thesaturdaypaper.com.au...within-sensor-net/14293190401772#.VYfFVij5hhP
 
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Wouldn't doing this openly put in anti China/pro US league. Currently we are doing escalatory retaliation ,based on what China does,we respond. This would kick it all the way up. Also in case this is implemented, will we have control of Indian section? Will everyone get access to all the data generated regardless where the data was generated, i.e station on Japan vs Station in India?
 
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The UUVs are now autonomous and networked, both roving and dormant.


The above slides actually were upto 2009 with most data of early 2000 era. Tech has further evolved surely with autonomous and networked moving and mobile sensors + UUVs

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Where Japan can help us ?

  • Indian naval doctrine has to evolve much further ahead and appropriately budget allocation has to be done.
  • The best way forward is a combination of 5 CBGs and 4 LPD/LHDs out of which 3 ACC is conventional and 2 ACC is N powered. LHDs holding dedicated NMRH helos with ASW capability will do wonders.
  • The mutilpliers AARs as well as Fleet Support Replenishment Tanker numbers also needs increase.

The above lines are something you have often heard and read between many posters here.

Surface ship detection is a stronger possibility but its undersea detection capability which needs a boost as well as NMRH /ASW assets to take care of this threat

Also we need to see how we can equip MALE and HALE UAVs in ISR mode to have a continuous tracking of our IOR region. It would be beneficial if we take help of Japan and configure our own version of Sea Web underwater acoustic detection system like this

j1.png

That will help us develop a more comprehensive startegy like below

j2.gif


j3.png


As you see how beautifully such a system aids in our battle system as well.

Now if we are dependent only on Marine MPA, it means if MPA is downed the whole system goes kaput.

The above illustration based on Sea web public slides can be further understood by simple basic diagrams

upload_2016-9-8_19-8-33.png



Below is a proper setup



upload_2016-9-8_19-9-3.png



  • As you see each of the seaweb becomes local cluster of detection centers managed via a surface station which is interconnected to a onshore link, surface sink and a uplink to satellite for real time monitoring.
  • You see we have got the MPA part, Dedicated MilSat part as well now needs the UW (Underwater) sink and UW Sensor setup
  • The surface station over water actually helps collate Rx from all sensor cluster.
  • By smartly clubbing such sensors we can even monitor Tsunami/Earthquake monitoring in the region
  • It can be augmented further with buoys which can become focal point of Rx ..

Of course this whole infrastructure is costly to setup but what it provides us with is a valuable tracking and surveillance system

With an MPA if it goes on regular patrols on a daily basis and if you detect a situation or daily use dunking sonars then there is a good chance of detecting it.

  • Now for regular patrols over IOR how many MPA are required?
  • What are the probable chances that MPA could not detect the subs?

Consider the situation of India and Pakistan - Fleet is SSK.. They cant dive deeper than 300 m and normally operate more like 150-200m. Nice we got it using MPAs.

Now consider India and China angle.. In comes the SSN and SSBN and depth changes to 300-400m- 600m. Sitting quietly at depth and using every means to evade detection.

If you carefully consider the financials over multiple years the building of heavy infra actually will help. Why? An example is this Around the whole country, we can use the following infra in these places to have the Rx and in turn convert a major part of asset needed for deployment out of our books

j4.jpg



These are blocks which are awarded to exploration of Oil and Natural gas, implying Oil Rigs.

Another is this

j5.png


  • The usage of buoys to act as Receivers.
  • So instead of MPA we can get multiple RX stations done.
  • Its basically the UW Sensor web which needs to be laid properly. A good way could be using the fibre optic laying operation to have some these UW senors especially if the cables are laid by Indian companies like Tata Communications
  • Thus we can definitely find more cost effective means of detection which are more fool proof and provide a multiple layer of detection

@zebra7
Hope this helps

@Picdelamirand-oil - this is as per earlier discussion which i think @randomradio remembers as well.


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The above slides actually were upto 2009 with most data of early 2000 era. Tech has further evolved surely with autonomous and networked moving and mobile sensors + UUVs

Present projects are directed towards assigning groups of UUVs to monitor all known vessels of interest in real time.
 
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The above slides actually were upto 2009 with most data of early 2000 era. Tech has further evolved surely with autonomous and networked moving and mobile sensors + UUVs

+++

Where Japan can help us ?

  • Indian naval doctrine has to evolve much further ahead and appropriately budget allocation has to be done.
  • The best way forward is a combination of 5 CBGs and 4 LPD/LHDs out of which 3 ACC is conventional and 2 ACC is N powered. LHDs holding dedicated NMRH helos with ASW capability will do wonders.
  • The mutilpliers AARs as well as Fleet Support Replenishment Tanker numbers also needs increase.

The above lines are something you have often heard and read between many posters here.

Surface ship detection is a stronger possibility but its undersea detection capability which needs a boost as well as NMRH /ASW assets to take care of this threat

Also we need to see how we can equip MALE and HALE UAVs in ISR mode to have a continuous tracking of our IOR region. It would be beneficial if we take help of Japan and configure our own version of Sea Web underwater acoustic detection system like this

View attachment 332462
That will help us develop a more comprehensive startegy like below

View attachment 332463

View attachment 332464

As you see how beautifully such a system aids in our battle system as well.

Now if we are dependent only on Marine MPA, it means if MPA is downed the whole system goes kaput.

The above illustration based on Sea web public slides can be further understood by simple basic diagrams

View attachment 332458


Below is a proper setup



View attachment 332460


  • As you see each of the seaweb becomes local cluster of detection centers managed via a surface station which is interconnected to a onshore link, surface sink and a uplink to satellite for real time monitoring.
  • You see we have got the MPA part, Dedicated MilSat part as well now needs the UW (Underwater) sink and UW Sensor setup
  • The surface station over water actually helps collate Rx from all sensor cluster.
  • By smartly clubbing such sensors we can even monitor Tsunami/Earthquake monitoring in the region
  • It can be augmented further with buoys which can become focal point of Rx ..

Of course this whole infrastructure is costly to setup but what it provides us with is a valuable tracking and surveillance system

With an MPA if it goes on regular patrols on a daily basis and if you detect a situation or daily use dunking sonars then there is a good chance of detecting it.

  • Now for regular patrols over IOR how many MPA are required?
  • What are the probable chances that MPA could not detect the subs?

Consider the situation of India and Pakistan - Fleet is SSK.. They cant dive deeper than 300 m and normally operate more like 150-200m. Nice we got it using MPAs.

Now consider India and China angle.. In comes the SSN and SSBN and depth changes to 300-400m- 600m. Sitting quietly at depth and using every means to evade detection.

If you carefully consider the financials over multiple years the building of heavy infra actually will help. Why? An example is this Around the whole country, we can use the following infra in these places to have the Rx and in turn convert a major part of asset needed for deployment out of our books

View attachment 332470


These are blocks which are awarded to exploration of Oil and Natural gas, implying Oil Rigs.

Another is this

View attachment 332471

  • The usage of buoys to act as Receivers.
  • So instead of MPA we can get multiple RX stations done.
  • Its basically the UW Sensor web which needs to be laid properly. A good way could be using the fibre optic laying operation to have some these UW senors especially if the cables are laid by Indian companies like Tata Communications
  • Thus we can definitely find more cost effective means of detection which are more fool proof and provide a multiple layer of detection

@zebra7
Hope this helps

@Picdelamirand-oil - this is as per earlier discussion which i think @randomradio remembers as well.


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Thanks brother as usual you came up with the enormous and to the point information.
 
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Wouldn't doing this openly put in anti China/pro US league. Currently we are doing escalatory retaliation ,based on what China does,we respond. This would kick it all the way up. Also in case this is implemented, will we have control of Indian section? Will everyone get access to all the data generated regardless where the data was generated, i.e station on Japan vs Station in India?

What about China providing free weapons and atom bombs to Pakistan which is hanging on your neck to kill?
 
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Wouldn't doing this openly put in anti China/pro US league. Currently we are doing escalatory retaliation ,based on what China does,we respond. This would kick it all the way up. Also in case this is implemented, will we have control of Indian section? Will everyone get access to all the data generated regardless where the data was generated, i.e station on Japan vs Station in India?

Chinese have trapped India in a lock with Pakistan long back when they shared N secrets to their ally.

This shows you how far sighted they are, by this single stroke they have made sure we don't emerge single handedly dominant in our own region leave aside challenging we couldn't muster the courage to build proper roads bordering them and venturing to South China Sea might not have been even thought of.

So it has been kicked up the way long back by them. We are playing catch up.

World is a cruel place, jiski lathi uski bhains is the apt proverb.

It means get a bigger stick and talk all Gandhi you want.
 
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Wouldn't doing this openly put in anti China/pro US league. Currently we are doing escalatory retaliation ,based on what China does,we respond. This would kick it all the way up. Also in case this is implemented, will we have control of Indian section? Will everyone get access to all the data generated regardless where the data was generated, i.e station on Japan vs Station in India?

Either you participate in American submarine sensor network or build your own. I assume that is expensive and beyond India's technical means
 
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