Mistral Solutions Pvt Ltd Domlur, Bengaluru, Karnataka

Radar Video Processor (RVP) is Curtiss Wright’s high-performance radar acquisition, tracking and distribution server designed to address a broad range of radar processing requirements, from network radar video servers to ruggedized naval tracking solutions. RVP server is designed to work with Curtiss-Wright’s extensive range of radar client solutions for video and track display. Alternatively, they may be used in standalone configurations. RVP server can be implemented as customized rugged systems for demanding environments, PC-based for benign environments or as VME or VPX card assemblies for embedded applications. RVP is fully interoperable with Curtiss-Wright’s hardware and software-based radar scan conversion products. Radar video acquisition, from analog or digital signals Clutter processing Cell averaging CFAR Radar video distribution on LAN Radar video recording on local disk Plot extraction Automatic target acquisition Target tracking Radar video PPI display engineering and control interface Network control

Sophisticated solutions for communication and coordination between multiple security agencies during a mission-critical operations.

Solar electric power is a valuable technology providing continuous, reliable and cost-effective power when used in appropriate applications. However, there are fundamental questions to consider when sizing and specifying solar for a site that has no access to utility power or where access is impractical. Understanding the answers to the following six questions will help determine if solar is an effective technology for powering equipment at such locations.

The RZ/G1E SMARC module developed by Mistral is a small form-factor, high performance module built around 1GHz Renesas RZ/G1E dual ARM® Cortex-A7 microprocessor (MPU). The RZ/G1E SMARC module supports dual camera, dual display ports, dual Ethernet and most of the interfaces of SMARC 1.0 standard.

The Rear-transition Module – Breakout Card (RTM-BOC) from Mistral is an eight layer plug-in module for the Keystone II family of Edison,Hawking and Kepler EVMs showcasing the multi-core DSP+ARM KeyStone II System-on-Chips from Texas Instruments. These EVMs are double wide AMC form factor cards which provide Hyperlink, AIF2, and XFI interfaces over the AMC.4 µTCA interfaces.

A Physical Layer Switch (PLS) is a hardware device that performs like an electronic patch panel. Users can send a command to a PLS to change connections without moving cables. The PLS handles data at the physical (PHY) or first layer of the OSI model of network architecture. Also known as a Layer 1 Switch, a PLS acts like a wire or cable on the hardware level, and therefore is not aware of and has no influence on the actual protocol or routing information contained within the data stream.

Microcontrollers typically include extensive on-chip IO and peripheral devices which make it easy to interface with other electronics.Modern day microcontrollers are miracles of engineering – cheap, small, low-power and packed with features; they are at the heart of many electronic products. Mistral’s team of expert engineers have the expertise in multitude of microcontroller based designs, ranging from 8-bit microcontroller to 32-bit microcontroller, in C, C++, Assembly language on various IDEs. Mistral has built a wide range of microcontroller based designs for wearable electronics, medical electronics, home automation, industrial applications, health and wellness .

Based on AM437x SoC from TI, the MDS-Industrial Display System provides localized monitoring and distribution for critical equipment, helping reduce operational costs without compromising on production schedules or product quality.

An Operation Centre that acts as the key area for data collection and dissemination, resource planning, geographical mapping, resource dispatching and data analysing in real-time for any emergency and tactical operation.

Based on TI’s Sitara™ AM437x platform, the Industrial IoT Kit , comes integrated with the AWS IoT SDK enabling developers to use the SDK functionality from connected devices for mobile and web applications.

PTZ cameras are seen as the answer to an organisation’s comprehensive and in-close-detail surveillance needs, by many security managers; thanks, in part, to Hollywood movies (remember the movie “The Bourne Ultimatum”, where there is a scene set in a railway station, with PTZ cameras moving via remote control and closely tracking the suspect). The fact is that deployment of PTZ cameras raises as many issues as it solves. Security managers will do well to consider these, to ensure that in deploying PTZ cameras they do not degrade, instead of improving, the capability of the surveillance infrastructure. PTZ cameras, thanks to the Zoom capability, are able to provide a more detailed view of a surveillance target.

Explosives Trace Detectors are devices that are able to detect explosives, even if they are well concealed or camouflaged, through sniffing vapours or sampling traces or a combination of both techniques. ETDs are typically evaluated on the basis of their sensitivity, their false-positive rate, and their volumeweight package.

Capturing surveillance data, whether voice, video, or electronic, is critical to ensuring homeland security. As critical is the ability to stream, receive, and transmit this data securely; and this is where encryptiondecryption (henceforth referred to as encryption) devices play an important role. The encryption processing takes place in a hardware chip: either an ASIC or an FPGA. The chip implements encryption and decryption using one of the encryption standards – AES, TDES, etc. Such chips are used for data-at-rest applications: in USB drives, HDDs, and other data storage devices that encrypt data as it is written to the medium. These chips are also used when designing custom-built devices – voicevideo transmission and reception equipment, data storage sub-systems, networking devices, and computing devices.

Mistral offers services for embedded design and development in the consumer electronics domain that meets the needs of product developers in this space. Some of the devices designed by Mistral in the Consumer Electronics and Lifestyle Electronics domain includes: personal devices for communication, navigation and entertainment like e-book readers, voice activated computers etc.; enterprise devices that facilitate wireless communication like VoIP Phones, NVRs etc. and infrastructure equipment like Digital signage, video surveillance etc. that enable centralized communication and monitoring. Middleware and Embedded application development Audio and Video codecs, video streaming, video data processing Playlist and Persistence Manager GStreamer based music player Media streaming libraries, media servers Wireless: FM-RDS, Navigation, GSMGPRS, Bluetooth, Zigbee, GPS, WiFi supplicant Peripherals: CDUSB stacks, iPhoneiPadiPod MFi, MTP stacks

Craneboard is a low cost, open source reference platform to help the developer community leverage the benefits of the AM3517 processor while leveraging a host of exciting peripherals.

Multi-platform Modular, Rugged 3U 5-slot Mission Computer that supports OpenVPX architecture. It can be readily configured to meet the needs of any military or aerospace requirements, from benign laboratory to harsh avionics environments

The market-trusted, Yocto Project Compatible open source baseline delivers vital components for the productization and commercialization of any Internet of Things (IoT) device.

Modular, fully configurable, enclosure system to support custom configurations based on standard parts. The Type 14 will except 3U or 6U cards mounted vertically or horizontally or combinations of card cage configuratio

XMC SBC with NXP Power Architecture P2020 Processor provides a highly integrated processing node designed for applications where low power with dual core performance is a requirement.

The VPX3-150 Single Board Computer is a 3U VPX SBC targeted at avionics applications where a cost-effective COTS alternative to custom developed DO-254DO-178 safety certifiable solutions can offer a competitive advantage for integrators. Designed for applications requiring a DO-254DO-178 safety certifiable solution, the VPX3-150 Single Board Computer represents the latest step in the evolution of rugged, highly integrated small form factor COTS modules. The VPX3-150 SBC combines the performance and the advanced IO capabilities of NXP’s (earlier Freescale) P5020 processor with an extensive IO complement to provide a highly capable processing platform for a wide range of embedded militaryaerospace applications. The VPX3-150 is designed to occupy a 1.0” slot as per VITA 65.

The Camera Adaptor Boards from Mistral are designed to realize imaging applications with Mistral’s 820 Development kit using OmniVision sensors with resolutions ranging from 2MP to 13MP. Designers can choose to use any of these different Camera Adaptor Boards depending on their application’s requirements. SPECIFICATIONS: Supports high-performance sensors (high sensitivity, low crosstalk, low noise, improved quantum efficiency) with image resolutions up to 4K Image sizes: 3264×2448, 2816×1584, 1944×1944, 1080p (1920×1080), 1080×1920 and more Output formats: RAW RGB, RGB565/555/444, YUV422/420, YCbCr422 No system startup delay (Output Current Path enabled) Input Clock Frequency: 6 ~ 27 MHz Ultra-low power mode (ULPM) Supports LED and flash strobe CUSTOMIZATION: The Camera Adaptor Boards are designed to interface with the primary camera expansion port of the 820 Development Kit. Customization services are for various applications such as: Design and development of additional Camera Adaptor Boards to realize up to 3 cameras on the 820 Development kit Video input adaptor board to realize digital and analog video inputs Adapter Boards to interface with camera expansion connectors of other platforms

Full-body scanners are very effective in detecting objects concealed under a person’s clothing, without having the target remove hisher clothing or without physical contact. The procedure is faster – over in 15 seconds – than frisking, and avoids the intrusive aspect of frisking that some people find degrading. Millimeter wave scanner technology is based on the principle that clothing is translucent in some EHF (Extremely High Frequency: 30 – 300 GHz) RF bands. Passive Millimeter Wave technology uses scanners that read the raw energy that is naturally emitted by the human body and by objects carried on the human body. The scanner generates a facsimile of the target based on the interpretation of these energies.The main advantage of Passive Millimeter Wave Scanner technology is that it is very safe for both the screener and the target, since there is no artificially generated energy directed at the target. As a consequence of the fact that the scanner relies on natural energy radiation, the resolution of the image generated by the scanner is not very high, which is a drawback; which in turn means that anatomical details of the target are indistinguishable, which is a plus with privacy advocates.

Many video surveillance cameras support a microphone (in-built, with the option for an external unit) and support external speakers. Audio adds value to surveillance content, in specific cases and provided it is of a quality that can be comprehended. How effective are the audio components of a video surveillance camera, and what are the use-cases for deploying the audio-input and audio-output features of a video surveillance camera. This brief looks at the standards, the effectiveness, and use-cases with respect to the audio components of a video surveillance solution. The objective behind supporting speakers is to send an audio warning using the camera, thus having a deterrent effect on potential law-breakers captured on camera. The audio warning may sent by the person monitoring the video feed, or may a recorded sound that is automatically transmitted whenever an alert is raised by the video analytics module. Either human monitoring or a video analytics application is a prerequisite for implementing the speakers feature on video surveillance cameras.

The 820 Nano SOM from Mistral is an easy to use, ultra-compact, light-weight System on Module providing very high processing power. Based on Qualcomm SnapDragon 820, the 820 Nano SOM is ideal for advanced, next-gen embedded applications. Measuring just 51mm x 26mm, this is one of the smallest Snapdragon based SOMs currently available in the market. The 820 Nano SOM is ideal for designing products like wearable computers, camera solutions, media gateways, Infotainment, drones, assistive devices and other smart gadgets requiring small package and high processing power. FEATURES:   Qualcomm’s SnapDragon 820 with 2.2 GHz Qualcomm® Kryo™ quad core CPU 3/4GB LPDDR4 RAM 32/64GB UFS Type-C Functionality 4K Encode/Decode On-board 9-axis MEMS Scalable power management Multiple Connectivity Solutions Board-to-Board Expansion connector Linux and Android Nougat support

Increased competition across industries demand increased productivity, intelligence and operational excellence which require systems to inter-operate, collect and analyze data for well-informed decision-making. Mistral provides extensive and reliable industrial automation solutions and industrial automation design services with the use of ruggedized MCUs and MPUs for industrial control, sensing, networking and Human Machine Interface (HMI) for applications like smart energy meters, process control, industrial gateways, industrial cameras, industrial sensors and more.