Ilmasta-maahan aseet

  • Viestiketjun aloittaja Viestiketjun aloittaja miheikki
  • Aloitus PVM Aloitus PVM
Ei sano että pystyy osoittamaan kohdetta. Minkä podin se tarvitsee että se toimii?



Tornadosta on elso versio, muuten nuo on elso alustoja, paitsi tuo f16.

Käsittääkseni asia vaatii vain ohjelmistopäivityksen koneessa (joka liittyy tutkavaroittimeen). Se, miten monimutkainen toimenpide se on, että AARGM saa datan tutkavaroittimelta..on sitten hieman meikäläisen asiantuntemuksen ulkopuolella.

Normikone siis (käsittääkseni) käyttäisi AARGM-ohjusta "puolustuksellisesti". Koneet kuten EF-18G, Tornado ECR, EA-6B sitten hyökkäyksellisesti.
 
Onko ne köyhän miehen arsenaalikoneita Growlerin maalatessa kohteen vai onko AGRAAM fire-and-forget osaa-hakeutua-maaliin-autonomisesti jos se tiedetään olevan alueella?

The HARM missile can operate in three modes: pre-emptive, missile-as-a-sensor and self-protect. In the pre-emptive mode the missile is fired before locking on the potential threat. Targeting is provided through pre-flight planning or cued via aircraft's sensors. The missile-as-a-sensor mode allows aircraft to use externally attached HARM missiles as a sensor (using its seeker) to locate radar emissions. Self-protect mode means the missile is fired to destroy threatening radar emissions. The scope of capabilities of the HARM missile family expands from the basic AGM-88A introduced in 1982 to the latest AGM-88F planned for 2015-2016. More than 23,000 AGM-88 missiles have been produced or are under contract to date with more than 4,000 employed in combat.

http://www.deagel.com/Offensive-Weapons/AGM-88G-AARGM-ER_a001155007.aspx
 
muuten nuo on elso alustoja, paitsi tuo f16.
USAF käyttää nimenomaan Block 50/52 F-16CJ - koneita vihollisen tutka-asemien metsästykseen:
https://fightersweep.com/177/history-of-the-wild-weasel-part-3/

Maalinosoitukseen nuo ns Wild Weasel-koneet käyttävät HTS-podia:
https://www.af.mil/About-Us/Fact-Sh...peed-anti-radiation-missile-targeting-system/
071019-F-9999S-026.png

Tehtävään käytettävät koneet ovat nykyään samalla harmaalla tutkapoikkipinta-alan pienentämiseen tarkoitettulla erikoismaalilla (have glass 5) maalattuja kuin F-35.
https://theaviationist.com/2012/08/30/have-glass/
120811-0089-91-0391.jpg
 
Viimeksi muokattu:
Kyllä nuo ovat ihan sellaisenaankin käyttökelpoisia. Mielestäni ilmavoimat on itse kommentoinut, että kyse oli lähinnä kustannuksista.
 
USAF käyttää nimenomaan Block 50/52 F-16CJ - koneita vihollisen tutka-asemien metsästykseen:
https://fightersweep.com/177/history-of-the-wild-weasel-part-3/

Maalinosoitukseen nuo ns Wild Weasel-koneet käyttävät HTS-podia:
https://www.af.mil/About-Us/Fact-Sh...peed-anti-radiation-missile-targeting-system/
Katso liite: 23484

Tehtävään käytettävät koneet ovat nykyään samalla harmaalla tutkapoikkipinta-alan pienentämiseen tarkoitettulla erikoismaalilla (have glass 5) maalattuja kuin F-35.
https://theaviationist.com/2012/08/30/have-glass/
Katso liite: 23485
Jees. Senverran muistelen lukeneeni että USAF:n poistettua F-4G Wild weasel Phantomit, F-16CJ Harm Targeting podeilla korvasi sen. Jo Irakin lentokieltoalueiden vahtimisessa 1990-luvulla tuli selväksi että CJ ei ollut lainkaan F-4 veroinen tutkan tuhoaja tehtävissä ja usein Harmin silloinen suorituskyky- ja tuhovoima oli rajallinen tms., joten CJ:t käyttivät Gbu-12 laserohjattuja pommeja Irakin kapinoivia tutka-asemia vastaan.

Nyt nuo CJ:t alkavat olemaan pikkuhiljaa mennyttä maailmaa ja ne eivät selviäisi enää varmaankaan nykyisessä uhkaympäristössä. Jatkossa F-35, dronet sekä standoff aseet hoitelevat tutkat pimeiksi.
 
^ DID samasta:

https://www.defenseindustrydaily.co...ds-family-of-stealthy-cruise-missiles-014343/

September 12/18: JASSM-XR Lockheed Martin is being tapped to advance its development of the Joint Air-to-Surface Standoff Missile Extreme Range (JASSM-XR). The cost-plus-fixed-fee contract
external.png
is priced at $51 million and includes all all-up round level systems engineering and programmatic activities to align and phase the work necessary to design, develop, integrate, test, and verify component and subsystem design changes to the JASSM-XR baseline electronics, hardware, firmware, and operational flight software. Few details
external.png
about the JASSM-XR are known to this date, however the missile will likely be a 5,000 pound-class weapon that can fly out to 1,000 nautical miles to deliver a lethal payload up to 2,000 pounds precisely on target. Work will be performed at Lockheed’s location in Orlando, Florida and is scheduled for completion by end of August, 2023.

Aika raskaalta kuulostaa.

Vanha artikkeli vuodelta 2006, joten kannattaa ottaa kourallisella suolaa. Juttu kertoo kuitenkin ohjuksessa olevan mm. modulaarinen hyötykuorma, ohjuksen osuvan tarkasti myös ilman hakupäätä pelkän GPS:n varassa, ohjuksessa olevan kaksisuuntainen datalinkki ja ohjuksen kykenevän odottelemaan ilmassa maalitietoa.

https://www.satellitetoday.com/unca...martin-explores-extreme-range-cruise-missile/

Lockheed Martin Explores Extreme-Range Cruise Missile



By Staff Writer | September 11, 2006















ORLANDO, Fla.–Lockheed Martin [LMT] is designing a very long-range cruise missile that can reach deep into enemy territory with a large warhead to destroy hardened underground facilities and cave and bunker complexes, according to company officials.
Known as the Cruise Missile Extended Range (XR), the company-funded concept entails a stealthy, 5,000 pound-class weapon that can fly out to 1,000 nautical miles to deliver a lethal payload up to 2,000 pounds precisely on target, said Ed Whalen, director of Strike Weapons Business Development for Lockheed Martin Missiles and Fire Control.
“Cruise Missile Extended Range is something we are looking at internally based on what the warfighter has told us,” Whalen told sister publication Defense Daily recently during an interview at the company’s facility here. “If you look at the problem out there, the adversary is putting their targets deeper range-wise and deeper penetration- wise.”
Accordingly, the company has been refining the design of a GPS-guidance-aided cruise missile that could be launched by aircraft that are safely beyond the kill zones of sophisticated air defenses, or fired from ships outside of the reach of anti-access threats, yet still have the range to hit difficult-to-access sites and strike them with a powerful punch. Such targets include production or storage facilities for weapons of mass destruction, command-and-control centers, air defense nodes, and ballistic missile sites, he said.
The missile could also be used to strike time-critical moving objects, he said.
“We have cruise missiles that go 1,000 miles,” said Whalen of existing weapons in the U.S. inventory. “But we want something more in the 5,000 pound-class that can go that range and carry a lot more payload than what is out there right now in the legacy systems.”
For example, the Navy’s Tomahawk Block III and Block IV cruise missiles, which are built by Raytheon [RTN], have a range up to 1,000 nautical miles, thus equal to the XR concept, but carry payloads up to 1,000 pounds, or about half of the XR’s capacity, according to Raytheon’s Tomahawk fact sheet.
Further, while the Air Force’s Boeing [BA]-built AGM-86 Conventional Air Launched Cruise Missile (CALCM) can carry a comparable payload in terms of weight, the missile’s range is, at 600 nautical miles, comparatively less than that of the XR, according to the Air Force’s CALCM fact sheet. Additionally, CALCM is not considered as survivable as newer, stealthy strike weapons such as Lockheed Martin’s AGM-158 Joint Air-to-Surface Standoff Missile (JASSM), which is now in service with the Air Force.
JASSM, which the Royal Australian Air Force is also purchasing, has a range of 250 nautical miles and carries a 1,000 pound-class warhead. An extended-range variant in development for the U.S. Air Force called JASSM ER can fly more than 500 nautical miles.
“A regular, baseline JASSM is a truck [for delivering a warhead],” said Whalen. Cruise Missile XR, he said, “is a Mack truck, a lot bigger truck.”
Whalen said Cruise Missile XR leverages technologies used in the air-launched JASSM, such as the latter’s stealthy materials and manufacturing processes. Its notional features include precision delivery accuracy without the need for a seeker, potentially via an external means of bolstering the accuracy of the GPS signal. It also has a two-way datalink for line-of-sight communications and connecting to battlefield information-sharing networks that are beyond line of sight, and a modular front end to accommodate various warheads.
Whalen said the warhead, which would range between 1,500 pounds and 2,000 pounds, could include a dual-mode system like on the JASSM that allows both for penetration or blast fragmentation effects, or a front-end dispenser for delivering precision-guided submunitions.
“You could have a cruise missile, even one this big, dispense submunitions as you went through the battlefield, and then it would seal up and keep its stealth characteristics,” he said.
Lockheed Martin is already developing such submunitions for the Air Force under a low-cost cruise missile initiative.
The Cruise Missile XR design would also minimize the potential for collateral damage and, depending on the configuration, be able to pass battle damage information back to command centers, said Whalen.
Whalen said Lockheed Martin continues its internally financed design work on Cruise Missile XR in the hopes that the Air Force or Navy will decide to pursue the weapon at some point and fund its maturation. The company has already conducted wind tunnel testing of several variations of the missile, he said.
“The Air Force is going toward next-generation long-range strike with a bomber,” said Whalen of the service’s intent to field a new strike capability by 2018. “What a missile like this would do is give a capability until that is fielded. A legacy airplane with a very long range cruise missile could standoff and be effective, versus having to drive all the way in across the target and put that crew at risk.”
Notionally, Air Force F-15E multirole fighter aircraft could carry up to four Cruise Missile XRs and Air Force bomber aircraft like the B-52H up to 12 of them, according to Whalen. Variants of the missile could also be operated from vertical launch tubes on Navy surface combatants. Conventionally armed missile submarines could carry up to 88 of them, or four per launch tube on the sub, he said. Other delivery modes include cargo aircraft that have been converted to roles as “arsenal planes,” he said.
For missions involving less distance, the missile’s inherent range could be translated into extended loiter time, Whalen said. Cruise Missile XRs could be launched and placed in a holding pattern in friendly airspace in some scenarios until the enemy forces emerge from their protected areas, he said.
In 2004, Lockheed Martin divulged work on an internal project called JASSM XR that envisioned a variant of the JASSM with attributes similar to what the company is now discussing under Cruise Missile XR. However, company officials caution that the two concepts are not synonymous.
Cruise Missile XR, they said, is not tied to any delivery mode such as JASSM XR, which was originally seen as a weapon for carriage exclusively on Air Force bomber aircraft.
 

Russia adopts new-generation guided bomb

The Russian Aerospace Forces (VKS) began receiving deliveries of new extended-range 500 kg and 1,500 kg guided bombs from Russia's leading developer of guided bombs and torpedoes, GNPP Region, a subsidiary of the Tactical Missiles Corporation (KTRV), during the first quarter of 2019.

"Both bombs have undergone testing and become operational, and deliveries of these munitions to the VKS have already commenced," GNPP Region Director General Igor Krylov told Jane's.
The enterprise has signed domestic and international contracts for the two new weapons, and export deliveries will begin in 2020.

A Russian defence industry source told Jane's the 500 kg and 1,500 kg guided bombs are designated K08BE and K029E (UPAB-1500B-E), respectively.

The K08BE with an INS, aided by satellite guidance and a high-explosive (HE) warhead, is designed to destroy military equipment and infrastructure.
The bomb weighs 505 kg, carries a 390 kg warhead, is 2,840 mm long, and has a diameter of 0.355 m wide.
The weapon can be dropped from an altitude of up to 14 km and has a maximum gliding range of 40 km.
The warhead has a smart fuze with three detonation time-delay modes.
The K08BE features mid-body wings and tail-stabilising fins, both in an X-configuration and of a clipped-delta planform (their shape when viewed from below or above).
A slotted-cylinder control surface is attached to the trailing edge of each of the tail fins.

The K029E is designed to destroy hardened ground and surface targets.
The bomb is 5.05 m long and 0.4 m wide. It weighs 1,525 kg and carries a 1,010 kg HE concrete-penetrating warhead.
The guided bomb can be dropped from an altitude of up to 15 km and launched at a range of up to 50 km.
The bomb is fitted with a smart fuze with three detonation time-delay modes and uses an INS aided by satellite guidance, giving it a circular error probable of 10 m.

29827
 

Russia adopts new-generation guided bomb

The Russian Aerospace Forces (VKS) began receiving deliveries of new extended-range 500 kg and 1,500 kg guided bombs from Russia's leading developer of guided bombs and torpedoes, GNPP Region, a subsidiary of the Tactical Missiles Corporation (KTRV), during the first quarter of 2019.

"Both bombs have undergone testing and become operational, and deliveries of these munitions to the VKS have already commenced," GNPP Region Director General Igor Krylov told Jane's.
The enterprise has signed domestic and international contracts for the two new weapons, and export deliveries will begin in 2020.

A Russian defence industry source told Jane's the 500 kg and 1,500 kg guided bombs are designated K08BE and K029E (UPAB-1500B-E), respectively.

The K08BE with an INS, aided by satellite guidance and a high-explosive (HE) warhead, is designed to destroy military equipment and infrastructure.
The bomb weighs 505 kg, carries a 390 kg warhead, is 2,840 mm long, and has a diameter of 0.355 m wide.
The weapon can be dropped from an altitude of up to 14 km and has a maximum gliding range of 40 km.
The warhead has a smart fuze with three detonation time-delay modes.
The K08BE features mid-body wings and tail-stabilising fins, both in an X-configuration and of a clipped-delta planform (their shape when viewed from below or above).
A slotted-cylinder control surface is attached to the trailing edge of each of the tail fins.

The K029E is designed to destroy hardened ground and surface targets.
The bomb is 5.05 m long and 0.4 m wide. It weighs 1,525 kg and carries a 1,010 kg HE concrete-penetrating warhead.
The guided bomb can be dropped from an altitude of up to 15 km and launched at a range of up to 50 km.
The bomb is fitted with a smart fuze with three detonation time-delay modes and uses an INS aided by satellite guidance, giving it a circular error probable of 10 m.

Katso liite: 29827
Suunta näyttää venäläisilläkin olevan INS/GPS-aseiden suuntaan. EO-hakupäät vähenemässä tuollakin suunnalla?
 
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