From Dolphins to Destroyers: The ScanEagle UAV

ScanEagle launch

ScanEagle’s base Insight UAV platform was originally developed by Washington state’s Insitu, Inc. to track dolphins and tuna from fishing boats, in order to ensure that the fish you buy in supermarkets is “dolphin-safe”. It turns out that the same characteristics needed by fishing boats (able to handle salt water environments, low infrastructure launch and recovery, small size, 20-hour long endurance, automated flight patterns) are equally important for naval operations from larger vessels, and for battlefield surveillance. A partnership with Boeing took ScanEagle to market in those fields, and the USMC’s initial buy in 2004 was the beginning of a market-leading position in its niche.

This article covers recent developments with the ScanEagle UAV system, which is quickly evolving into a mainstay with the US Navy and its allies. Incumbency doesn’t last long in the fast-changing world of UAVs, though. Insitu’s own RQ-21 Integrator is looking to push the ScanEagle aside, and new multiple-award contracts in the USA are creating opportunities for other competitors. Can Insitu’s original stay strong?

Don’t Touch Their Junk: USAF’s SSA Tracking Space Debris

Space Fence:
Mission Control Concept

Space is big. Objects in space are very dangerous to each other. Countries that intend to launch objects into space need to know what’s out there, in order to avoid disasters like the 2009 collision of 2 orbital satellites. All they need to do is track many thousands of man-made space objects, traveling at about 9 times the speed of a bullet, and residing in a search area that’s 220,000 times the volume of Earth’s oceans.

The US Air Force Materiel Command’s Electronic Systems Center at Hanscom Air Force Base in Massachusetts leads the USA’s Space Fence porject. It’s intended to improve space situational awareness by tracking more and smaller objects, while replacing legacy systems in the Space Surveillance Network (SSN) as they retire. With a total anticipated value of around $6.1 billion over its lifetime, Space Fence will deliver a system of 2-3 geographically dispersed ground-based radars to provide timely assessment of space objects, events, and debris. International cooperation will supplement it. Failure is not an option.

Aussie Anti-Air Umbrella: The Hobart Class Ships

F100 visits Sydney

Under the SEA 4000 Air Warfare Destroyer program, Australia plans to replace its retired air defense destroyers with a modern system that can provide significantly better protection from air attack, integrate with the US Navy and other Coalition partners, offer long-range air warfare defense for Royal Australian Navy task groups, and help provide a coordinated air picture for fighter and surveillance aircraft. Despite their name and focus, the ships are multi-role designs with a “sea control” mission that also includes advanced anti-submarine and surface warfare capabilities.

The Royal Australian Navy took a pair of giant steps in June 2007, when it selected winning designs for its keystone naval programs: Canberra Class LHD amphibious operations vessels, and Hobart Class “air warfare destroyers.” Spain’s Navantia made an A$ 11 billion clean sweep, winning both the A$ 3 billion Canberra Class LHD and the A$ 8 billion Hobart Class Air Warfare Destroyer contracts. The new AWD ships were scheduled to begin entering service with the Royal Australian Navy in 2013, but that date has now slipped to 2016 or so.

France Upgrading Their E-3F AWACS

E-3F AWACS

The French Armee de l’Air is upgrading its E-3F AWACS radar aircraft, in a $460 million program.

The E-3 Sentry AWACS (Airborne Warning and Control System) aircraft is based on a militarized version of the Boeing 707-320B. It remains the world’s most widely used large-jet AWACS platform, in service with the USAF, Britain, France, NATO, and Saudi Arabia. Over the years, the world’s E-3 fleet has required improvements to keep its radars and electronics current with advances in technology. France received its 4 E-3F aircraft between 1991-1992, and undertook its own RSIP improvement program from 2002-2006. Now, they’ve set their E-3F fleet’s upgrade path to Block 40/45 capability. At least, they had, until the US government suddenly got in the way…

AH-64E Apache Block III: The Once and Future Attack Helicopter

AH-64 in Afghanistan

With the collapse of the RAH-66 Comanche program, and rededication of its funding into the Armed Reconnaissance Helicopter (ARH) and Light Utility Helicopter (LUH), and other programs, the AH-64 Apache will remain the USA’s primary attack helicopter for several more decades. Apaches also serve with a number of American allies, some of whom have already expressed interest in upgrading or expanding their fleets.

The AH-64E Guardian Block III (AB3) is the helicopter’s next big step forward. It incorporates 26 key new-technology insertions that cover flight performance, maintenance costs, sensors & electronics, and even the ability to control UAVs as part of manned-unmanned teaming (MUT). In July 2006, Boeing and U.S. Army officials signed the initial development contract for Block III upgrades to the current and future Apache fleet, via a virtual signing ceremony. By November 2011, the 1st production helicopter had been delivered. So… how many helicopters will be modified under the AH-64 Block III program, what do these modifications include, how is the program structured, and what has been happening since that 2006 award? The short answer is: a lot, including export interest and sales.

CEC: Cooperative Engagement for Fleet Defense

CEC Concept
(click to enlarge)

Cooperative Engagement Capability (CEC) is the US Navy’s secret weapon. Actually, it’s not so secret. It’s just that its relatively low price means often leads people to overlook the revolutionary change it creates for wide-area fleet air defense, up to and including anti-ballistic missile capability.

CEC is far more than a mere data-sharing program, or even a sensor fusion effort. The concept behind CEC is a sensor netting system that allows ships, aircraft, and even land radars to pool their radar and sensor information together, creating a very powerful and detailed picture that’s much finer, more wide-ranging, and more consistent than any one of them could generate on its own. The data is then shared among all ships and participating systems, using secure frequencies. It’s a simple premise, but a difficult technical feat. With huge implications.

This DID FOCUS Article explains those mechanics and implications. It will also track ongoing research, updates, and contracts related to CEC capabilities from 2000 forward.

Japan’s Fleet BMD Upgrades

JS Kongou

The JMSDF (Japanese Maritime Self Defence Force) is working closely with the USA on missile defense activities. Air Force cooperation has also improved by leaps and bounds, allowing for much closer coordination with the USA in all aspects of operations – including missile tracking.

Japanese involvement includes modification and improvements to the SM-3 long-range anti-air/ABM missile. This weapon will form the outer layer of Japan’s ABM system, deployed from its current fleet of 4 Kongo Class AEGIS destroyers, and their 2 larger Atago Class successors. The inner layer will consist of land-based Japan Self Defense Forces PAC-3 Patriot missiles, and together they will form the initial ballistic missile defense for mainland Japan.

South Korea Looking to Upgrade its KF-16 Fighters

ROKAF KF-16

In July 2009, The Korea Times reported that ROKAF was looking to upgrade its F-16C/D fleet’s radar and armament, as part of the 2010-2014 arms acquisition and management package submitted to President Lee Myung-bak for approval.

Under the Peace Bridge II and II deals, The ROKAF bought 140 “KF-16″ Block 52 fighters, which were assembled in Korea between 1994-2004 under a $5.5 billion licensing agreement. Key upgrades to this fleet will include new radars to replace the existing APG-68v5/v7 systems, modern avionics and computers, and upgrades of the planes’ cabling and databuses to MIL-STD-1760. The centerpiece AESA radar competition has a winner now, and South Korea has picked its contractor for the overall upgrade program. Now the challenge is turning that into binding contracts, and beginning the upgrade process. Other countries within the region and beyond are interested in similar high-value F-16 upgrade programs, so the ROk’s experiences will be watched carefully.

Aerial Eyes: Pakistan’s New AWACS Fleets

S-2000 Rollout

In June 2006, Saab signed a SEK 8.3 billion provisional contract to supply Argus turboprop airborne early warning (AEW&C) systems to Pakistan, based on the Saab 2000 regional turboprop airliner and the Erieye fixed active array radar. The buy capped a 25-year quest by the Pakistani Air force to field AWACS machines, which can survey the airspace for hundreds of miles around, and co-ordinate intercept and strike missions based on what it sees.

The Saab aircraft beat other competitors, including US offers to sell the E-2C Hawkeye system. In 2007, the buy was reduced somewhat for financial reasons, but Pakistan took delivery of at least 4 planes. Then, in 2008, the PAF looked to China for another 4 AWACS. Despite some setbacks, Pakistan had a diverse AWACS fleet with more than 5 aircraft, even as its rival India has struggled to field 3 planes. That was true, until Pakistan’s own deep state policies supporting Salafist Islam came back to bite their AWACS fleet.

KF-X Fighter: Pushing Paper, or Peer Program?

KODEF ’11 slide

In March 2013, Indonesia’s Defense Ministry says that South Korea has decided to put the KF-X program on hold for 18 months, while new President Park Geun-hye works to convince Parliament to go ahead. Indonesia is the sole foreign partner in the program to date, and has reportedly contributed IDR 1.6 trillion since they joined in July 2010 – but that’s just $165 million of the DAPA’s estimated WON 6 billion (about $5.5 billion) development cost.

Specifications and concepts for the KF-X vary considerably…