Iran recently revealed that it is nearing completion of its first AGI (Auxiliary General Intelligence, or electronic reconnaissance) ship. Called the Shiraz, it is a 3,000-ton vessel equipped to monitor all manner of electronic signals. AGIs depend heavily on complex electronic monitoring gear and computers to assist in shifting through the electronic cacophony and determining what is important and what isn’t. The Iranian AGI will probably spend most of its time in the Persian Gulf and Indian Ocean. It could also travel to the Mediterranean and try to monitor Israeli electronic operations. The Israelis might not take that well and declare the Iranian snooping an act of war.
AGIs were very popular during the Cold War and, while the Russian AGI fleet has declined, the American AGIs are still abundant and busy. Meanwhile China has been building its own fleet of modern AGIs, although it’s unlikely China provided direct assistance to Iran in designing and equipping Shiraz, which is supposed to enter service in early 2021.
In early 2018 China launched its ninth Dongdiao class Type 815 AGI ship. This was significant in several ways, most obviously because China has built six of these ships in the previous four years and now has nine of them in service. With this many modern AGI ships China is suddenly able to collect information worldwide and on a sustained basis. In less than a decade China has gone from nowhere to everywhere in offshore intelligence collection.
The Type 815s are 6,000-ton vessels that are 130 meters (418 feet) long and have a crew of about a hundred sailors plus 150 specialists and technicians. Top speed is 36 kilometers an hour and armament consists of a 37mm and two twin 25mm autocannon, which are apparently there mainly to keep minor threats at bay (pirates, suspicious small craft in general). There is also a landing pad and hanger for a helicopter.
These ships sport several domes protecting antennae and the ship is crammed with computers and signals processing gear. The Dongdiao class are replacing at some of older AGI type ships that entered service in the 1970s. Some of these older ships have had their electronics and other information gathering gear upgraded but they are elderly ships and expensive to maintain.
This equipment upgrading has already taken place with the Type 815, which first appeared in 1999 as something of a prototype for a new class of AGIs. The second Type 815 did not appear until 2010 and it was the same ship but with obvious differences in the type and arrangement of radars, antennae and other visible sensors. Inside the ship were much more powerful computers and electronics in general. In 2017 the sixth Type 815 was another major upgrade and was called the Type 815A in recognition of how extensive the upgrades had been since the first Type 815.
In 2014, before this spurt of Type 815 construction, China had about a dozen AGIs of varying sizes and ages. The Dongdiaos are the largest and most modern and are apparently going to replace most or all of the older AGIs. The Type 815s, like most AGIs worldwide, are mainly about electronic reconnaissance and collection. Just keeping track of the enemy's electronic devices has become a major operation, especially since no one knows exactly how everyone’s electronic equipment will interact until there is a sustained period of use. Such use does not occur in peacetime, when the EW equipment is used infrequently for training and testing. In addition, all electronic equipment has a unique electronic signature. Even equipment that is not broadcasting will appear a certain way to various sensors like radar or sonar. A critical peacetime function is to determine what these signatures are. For this reason, navies and air forces devote a significant amount of their time tracking other nation’s capabilities.
Computers are increasingly crucial in sifting through the ocean of data swept up. Huge libraries of signals are collected, analyzed and boiled down to manageable amounts of data friendly troops and weapons can use. ESM has been so successful that one entire class of sensors, active sensors, has become endangered. Active sensors detect things by broadcasting a signal. When this signal bounces off something, the sensor detects the bounce back and knows something is out there. This is the basis of radar, which broadcasts microwaves, and sonar, which broadcasts sound. Because of the signal being broadcast, a passive sensor can detect it.
Passive sensors just listen. Because active sensor signals must reach an object in sufficient force to bounce something back, a vehicle carrying a passive sensor will detect a vehicle carrying an active sensor first. This is what happens you use a radar detector in your car to detect police speed trap radars. You usually have time to slow down before you illegal speed is detected by the police radar. As users of these devices well know, there is constant competition to come up with better radars and countermeasures. Passive sensors are the hot item in research and development these days, and for obvious reasons. Passive sensors are nearly impossible to detect. Passive sensors can also pick a wide variety of signals. Infrared sensors can detect heat, including something as faint as body heat or the hot skin of an approaching jet aircraft.
AGI ships have lots of collecting to do and when it comes to AGI vessels having too many of them is never enough.