Featured Post

Ultra violet

UV is a form of radiation generated by atomic transitions in chemical reactions such as those present in the Sun and in man-made equipment s...

Thursday, December 30, 2010

UAV Payloads at AUVSI

CellPhone SpotterApplied Signal Technology (AST) is offering several types of electronic payloads enhancing target acquisition and identification from unmanned aerial systems. These include the Model 580 STYX small-size wireless interrogator, designed for interrogation of wireless communications using CDMA protocol. The system weighs only 7 pounds and consumes 7-12 watts that actively interacts with the cell station to obtain a mobile identification of dialed numbers from cellphones operating at any direction, over a distance of about 100 meters. Targets at longer distances can be obtained using directional antennae. STYX can operate in stealth mode, without any interruption of calls in progress. Alternatively, the STYX can operate passively to collect cal activity messages from a base station and nearby cell phones, including SMS messages, paging messages and responses and calls.
Another COMINT system developed by AST for UAVs is the Hydra. This system integrates adaptive beam forming and direction finding systems configured into small-size package. The system uses a software defined radio architecture to host a variety of signal-specific applications. The prototype Hydra has eight RF channels covering the 20-3000MHz range with 25 MHz IF bandwidth. The system weighs 30 pounds and consumes 180 watts. Further enhancements of the Hydra will include GSM identification and monitoring of GSM emitters, including the ability to geolocate each emitter.

Advanced Datalinks

Cubic Corp. and Rockwell Collins performed the first successful flight test of the Mini Common Data Link (CDL) system linking a King Air aircraft and a KillerBee unmanned system with ground stations. The prototype M-CDL weighs 1.5 pounds and demonstrated communications over a distance of 20 miles transmitting signals at data rates up to 10.7 Mbps. The tests support the US military's goal of developing CDL terminals that meet the payload restrictions of small unmanned aerial systems (SUAS) platforms and enable data link communications with current ground systems. Existing CDL systems are too heavy and too large to fit within SUAS platforms. The Mini TCDL is designed to operate at rates up to 45 Mbps and achieves interoperability with other vendor units through compliance with current DoD CDL waveform specifications.
A new datalink innovator at AUVSI was Enerdyne Technologies, a subsidiary of ViaSat. The company that specialized in video compression is now introducing a conversion system enabling analog datalinks to transfer digital signals at high data rates. Analog links are s widely used with current UAVs, including most of the MALE, SUAVs, mini and micro UAVs. The system uses a signal modulator that 'superimposes' a digital protocol over a standard analog link. After the conversion the link can carry digital data rates of 4-5 Mbps data. The signals are demodulated at the ground station using a special receiver provided by Enerdyne. The airborne segment weighs only four ounces (100 gr.) and its power consumption is very low. It can be installed in a UAV within few hours.

Miniature Stabilized EO Payloads

AeroMech Engineering introduced the TigerEye miniature EO payload designed for small UAS (SUAS). The five inch diameter turret weighs 1.7 pounds in the EO configuration (0.1 lb heavier for the IR version)is designed for unmanned aerial and ground vehicles,
with interface to the Cloud cap plug and play operating system complying with CAN or serial bus interface. TigerEye uses on board video processor providing electronic image stabilization and hardware embedded target tracking. The design uses a quick change of sensors in the field, without special tools. Optional sensors include a Sony EX980S camera with x26 zoom, a Flir Photon with 50 mm lense, a laser illuminator or low light CCD imager. Cloud Cap Technologies offers several versions of its lightweight payload known as TASE weighing about 1 kg. The payload can accommodate a number of sensors, including daylight cameras such as the Sony EX980S with x26 zoom or EX480C with 18x zoom. A range of FLIRs is also available for this payload, including the FLIR Photon Block II core (324x256) with a single or dual lense, Thermoteknix Miricle modules (384x288 or 640x480) or a Short Wave InfraRed (SWIR) 320x240 sensor from Goodrich. Cloud Cap also offers a unique mechanism retracting the TASE gimbal into the aircraft to support belly landing or other operations. The entire mechanism adds only 280 grams to the payload weight while eliminating the need for much heavier parachute, airbag or landing carriage.Controp Precision Technologies from Israel, a pioneer in the field of miniature EO turrets for UAVs, unveiled enhanced versions of its STAMP miniature stabilized payload at AUVSI 07, introducing an operational Uncooled IR sensor packed version (U-STAMP) for the first time. This payload weighing only one kilogram is designed for nighttime missions, and, according to Controp, has already been delivered to several customers worldwide. According to Controp, the 3 axis gyro stabilization of the STAMP platform's line of sight provides unique attributes to this turret, including highly stable video imaging including high quality pictures in full zoom, without vibrations or jittering, It also provides continuous target tracking regardless of aircraft attitude and motion. Wide field of regard and the ability to 'point to coordinates' makes this small payload simple to use and highly efficient when operated by ordinary soldiers.

TacVue MiniSAR

Enabling effective tactical battlefield reconnaissance/surveillance from UAS or manned platform applications, today’s unmanned/manned vehicle platforms need superior all weather, obscurant, day/night operational radar systems for all environments. Towards this requirement, Rockwell Collins and Sandia National Laboratories have joined together to develop a high performance Synthetic Aperature Radar (SAR) system. With Sandia’s radar experience and Rockwell Collins’ ability to manufacture field-grade reliable products for use in harsh environments, we ensure unmanned/manned vehicle platforms superior radar performance. The radar operates at the Ku band (16.8 GHz) providing 4-inch resolution imagery from a distance of 10 kilometers or 1 meter resolution from 23 km. Images can be used for identification and accurate geo-location of small targets at a geolocation error level of 25 meters. The current system weighs about 27 lbs, with future version downsized to about 18 lbs.


From:  
http://defense-update.com/events/2007/summary/auvsi07_8payloads.htm

Tuesday, December 14, 2010

Karrar UAV

Iranian state TV said the Karrar has a range of 1,000 kilometres (620 mi) and could carry two 115 kilograms (250 lb) bombs, or a precision-guided munition of 227 kilograms (500 lb).[5] The Karrar can also carry four Kowsar light anti-ship missile or Nasr-1 cruise missile. [6] The Karrar unmanned combat air vehicle is 4 metres (13 ft) long [7][4] and has a turbojet engine which can reach the speed of 900 kilometres per hour (560 mph).[8] The Karrar uses a rocket assist system for helping to take off and is recovered by parachute.

Link:

http://defense-update.com/products/k/karrar_jet_powered_drone_24082010.html

Tuesday, April 20, 2010

Electro-Optics Measurement


Electro-Optics is the field of technology which, aided by electronic components and techniques, involves the emission and/or reception of radiation in the Infra-Red, Visible and Ultra Violet portion of the Electromagnetic spectrum.

In Electro-Optics it is common to use the measurement of wavelength (l) to describe different components. Wavelength is measured in Microns (m) while the Frequency is very rarely referred to.

Thursday, April 1, 2010

Mobile phone use backed on planes cell base station - onboard communication


"Mobile use is currently prohibited on planes because there is evidence that they interfere with onboard communication and navigation systems.

The proposed system utilises an on-board base station in the plane which communicates with passengers' own handsets. The base station - called a pico cell - is low power and creates a network area big enough to encompass the cabin of the plane.

The base station routes phone traffic to a satellite, which is in turn connected to mobile networks on the ground.

A network control unit on the plane is used to ensure that mobiles in the plane do not connect to any base stations on the ground. It blocks the signal from the ground so that phones cannot connect and remain in an idle state.

Calls will be billed through passengers' mobile networks. "

Related article: - Mobile phone base station aboard Qantas airline enables cell phone usage


Tuesday, March 23, 2010

IED jammer




Bomb Jammer - Portable countermeasures for IED Defeat

The C-Guard TXP ECM is a portable, battery powered IED Jamming device, designed for multiple use: it can be operated using a car battery, an external 110/220 Vac or rechargeable batteries, allowing total mobility. The TXP ECM is housed in a trolley-style pelican case which can be carried by one person. Fully ruggedized, this IED jammer can be used under tough environmental conditions.

The TXP ECM is designed for easy and rapid field deployment, providing IED protection also in combat fields where the anti IED vehicle has no access. Blocking multiple frequency bands in one case, the C-Guard TXP ECM can block VHF, UHF, cell phones, satellite phones and more.

The C-Guard TXP ECM IED jammer was built to support any mission profile, including long missions in field. Optional spare rechargeable batteries can be instantly field-swapped during the jammer’s operation, this "hot-swap" option enables continuous use of the bomb jammer for IED defeat.

The C-Guard TXP ECM IED jammer may be operated for anti-IED vehicle protection, and then easily removed from the vehicle to provide portable secutrity for ground troops by powering it using batteries.

Netline offers variety of antennas for the TXP ECM, selected according to mission requirements and limitations. C-Guard TXP ECM Bomb Jammer The TXP ECM is battle-proven and is being used worldwide by: Military forces Bomb-Squads SWAT teams Anti – terror units Special Response Teams VIP protection units For a lighter, portable IED jamming system see the C-Guard ManPac

Tuesday, March 16, 2010

Counter Remote Control Improvised Explosive Device (RCIED) Electronic Warfare (CREW)


This effort is in response to an urgent Operational Need Statement (ONS) for an operational capability to prevent and/or defeat Improvised Explosive Device (IED) detonation ambushes that are a pervasive threat throughout the Operation Iraqi Freedom (OIF) theater of operation. This Statement of Objectives (SOO) provides the government's overall objectives for executing contract actions to produce, field and support a next generation Counter Remote Control Improvised Explosive Device (RCIED) Electronic Warfare (CREW) system, herein referred to as CREW Spiral 2 (CREW-2). The CREW-2 system shall provide increased capability over existing CREW Spiral 1 (CREW-1), a.k.a Warlock Family of Systems, with simultaneous coverage against all RCIED threats at increased ranges, broader frequency coverage extendable to higher frequencies, ease of programmability, reduced size-weight-and-power and built-in capacity for future growth. The ONS requirement is for use in tracked/wheeled vehicles, dismounted (note, not man-packable) and fixed sites for convoy, gate-keeping and Explosive Ordinance Disposal (EOD) operations.

On 3 June 2004, the U.S. Army Central Command (CENTCOM), Multi-National Corps?Iraq (MNC-I), identified an urgent Operational Need for Electronic Countermeasure (ECM) Devices and associated logistics support services to counteract the enemy use of Improvised Explosive Devices (IEDs) against Coalition Forces. This requirement was validated by Headquarters, Department of the Army (HQDA) on 10 August 2004. CENTCOM provided classified information to HQDA that detailed the number of convoys, gate-keeping and EOD operations that require CREW systems. To date this requirement has been met with the fielding of multiple configurations of CREW-1 devices (Warlock Family of Systems) which have certain limitations. CREW-2 systems are required to continue to meet urgent mission requirements and to provide a one system solution that can meet the full operational capability in a single system configuration.

CREW is a US Army managed evolutionary acquisition program that employs a spiral development approach to allow for rapid fielding of incremental CREW capabilities. CREW-1 was initiated in 2003 to address the immediate warfighter need by producing and fielding a Warlock Family of Systems. These CREW-1 systems are in various configurations and varied levels of performance. As currently configured, none of these systems completely address the total MNC-I operational requirement. With multiple configurations come a training and sustainment burden, and the adaptive and evolving nature of the threat dictates that CREW systems must have an open architecture to accommodate system growth. The CREW-2 system shall address these issues by providing a capability against a broader spectrum of RCIED threats, a common supportability approach, a design that is sufficiently flexible to allow for future capability growth, and one that is affordable to the government. Future CREW spirals are envisioned that will encompass requirements beyond this immediate acquisition.

Tuesday, March 9, 2010

Improvised Explosive Device Disposal (IEDD) Suit and Helmet

The Med-Eng EOD 9 Bomb Suit and Helmet ensemble has been designed with direct input from bomb disposal technicians to provide the highest degree of modular protection and operational flexibility for EOD and CBRN missions. The Med-Eng EOD 9 platform can be configured in the field by EOD or IEDD technicians based on the suspected presence of a CBRN agent in an IED.

At least 14 types of testing have been performed to validate the performance of the EOD 9, including extensive live-blast testing.

The Med-Eng EOD 9 bomb suit includes a Jacket, Integrated Groin Protector, Trousers and Boot Covers for integrated blast protection against IEDs and bombs. The system is stored in a rugged bag for storage in bomb squad response vehicles.

Friday, March 5, 2010

A light-emitting-diode - LED Lamp


A light-emitting-diode lamp is a solid-state lamp that uses light-emitting diodes (LEDs) as the source of light. Since the light output of individual light-emitting diodes is small compared to incandescent and compact fluorescent lamps, multiple diodes are used together. LED lamps can be made interchangeable with other types. Most LED lamps must also include internal circuits to operate from standard AC voltage. LED lamps offer long life and high efficiency, but initial costs are higher than those of fluorescent lamps.

Wednesday, February 17, 2010

Information assurance (IA)


Information assurance (IA) is the practice of managing risks related to the use, processing, storage, and transmission of information or data and the systems and processes used for those purposes. While focused dominantly on information in digital form, the full range of IA encompasses not only digital but also analog or physical form. Information assurance as a field has grown from the practice of information security which in turn grew out of practices and procedures of computer security.

There are three models used in the practice of IA to define assurance requirements and assist in covering all necessary aspects or attributes.

The first is the classic information security model, also called the CIA Triad, which addresses three attributes of information and information systems, confidentiality, integrity, and availability. This C-I-A model is extremely useful for teaching introductory and basic concepts of information security and assurance; the initials are an easy mnemonic to remember, and when properly understood, can prompt systems designers and users to address the most pressing aspects of assurance.

The next most widely known model is the Five Pillars of IA model, promulgated by the U.S. Department of Defense (DoD) in a variety of publications, beginning with the National Information Assurance Glossary, Committee on National Security Systems Instruction CNSSI-4009. Here is the definition from that publication: "Measures that protect and defend information and information systems by ensuring their availability, integrity, authentication, confidentiality, and non-repudiation. These measures include providing for restoration of information systems by incorporating protection, detection, and reaction capabilities." Tee Five Pillars model is sometimes criticized because authentication and non-repudiation are not attributes of information or systems; rather, they are procedures or methods useful to assure the integrity and authenticity of information, and to protect the confidentiality of those same.

The third IA model, less widely known but considered by many IA practitioners and professionals to be the most complete and accurate of the three, is the Parkerian Hexad, first introduced by Donn. B. Parker in 1998. Like the Five Pillars, Parker's hexad begins with the C-I-A model but builds it out by adding three more attributes of authenticity, utility, and possession (or control). It is significant to point out that the concept or attribute of authenticity, as described by Parker, is not identical to the pillar of authentication as described by the U.S. DoD.

Pic: U.S. Department of Defense Information Assurance emblem

From:

Wikipedia's

Monday, February 1, 2010

Mini Night Vision Aiming System (ANVS-1344)



The ANVS-1344 is an ultra compact
multipurpose night vision monocular developed
for a variety of ground-based nighttime missions.
It can be used as a self-contained pocket scope or
mounted onto a weapon for use in conjunction
with an infrared laser aimer or a reflex sight. While
using the monocular with head or helmet mount,
the user retains greater situational awareness and
peripheral vision of close-range objects as one
eye always remains unaided and dark-adapted.
The night vision aided eye can easily focus on
identifying potential threats and targets farther
ahead. Covered by two-year warranty.
ANVS-1344 Monocular Kit Includes:
Monocular, Weapon Mount Assembly, Neck Cord,
Headmount Adapter Assembly, Eye Cup, Shoulder
Strap, Lens Cap, Sacrificial Window, Demist
Shield, Headmount Assembly, Lens Tissue, 1.5V
AA Battery, AA Battery Sleeve Adapter, 3V CR 123
Battery, Browpads (Thin, Medium, Thick),
Operator Manual, Soft Carrying Case.
Optional Accessories for ANVS-
1344 Monocular:
3x Afocal Magnifier Lens, 5x Afocal Magnifier
Lens, Flip-up Helmet Mount, Camera Adapter
Shipping & Storage Case, Magnetic Compass
1. Lightweight & Compact
2. US Made Gen 3 Image Intensifier or European equivalents
are available
3. Automatic brightness control & automatic cut-off function
4. Uses One “AA” or 3V CR 123 battery
5. Close-up IR illuminator
6. Multifunctional
7. Waterproof to 66' for 1 hour
8. Mil. Spec.

SPECIFICATIONS
Magnification 1x
Field of View 40°
Focus Range 9.8” to infinity
Objective Lens 27 mm F/1.2
Diopter Adjustment -6 ...+4
Eye Relief 27 mm
Power Source One (1) AA or One (1) 3V CR 123 battery
Battery Life up to 40 hours
Dimensions 4.2”x2”x2.5”
Weight 9.3 oz.

FROM: http://www.nightvis.com/

Thursday, January 28, 2010

Package-Type Improvised Explosive Devices (IEDs)

Concealed Mortar/Artillery Projectiles







The enemy in Iraq has used IEDs consisting of mortar and artillery projectiles as the explosive device. The most common explosives used are military munitions, usually 122 mm or greater mortar/tank/artillery.

The use and characteristics of these have included the following:

* Thrown from overpasses.
* Thrown in front of approaching vehicles from roadside.
* Usually thrown by males—who are not always adults.
* Emplaced in potholes (covered with dirt).
* Emplaced along MSRs and alternate supply routes (targeting vehicles).
* Employed along unimproved roads (targeting patrols).
* Employed with 120-mm and larger artillery or mortar projectiles.
* Found alone or in groups.
* IEDs behind which are placed cinder blocks or piles of sand to direct blast into the kill zone.
* Command detonated—either by wire or remote device.
* Time-delay triggered IEDs. IEDs that can be detonated by cordless phone from a car (allows for mobile firing platform and prevents tracing or triangulation).

Modified Conventional Munitions

The examples below are all IEDs that have been recovered in Iraq.
Anti-Tank Mine encased in
concrete and command
detonated via remote control

Improvised Off-Route Antitank Mine 500lbs bomb rigged as IED
Artillery shells rigged as IEDs Artillery shell-based IEDs hidden in bags along roads

Artillery shell-based IED hidden in
plaster made to look like a concrete block


FROM: http://www.globalsecurity.org