Canattainit provides design and engineering of the Canattainit Biosecurecard™ for governmental bodies and private companies alike, solutions to meet the security needs for any given set of circumstances. The Canattainit BioSecureCard are a smart card, provide with finger fingerprint sensor and processor. Unique of the Canattainit BioSecureCard is that checking on the card himself takes place (matching on card). The card asks for (live!) finger impression and the card verify the fingerprint template. The fingerprint template is now the new code that has become, but without using any data communications with a central database. Users of the Canattainit BioSecureCard are mostly 100% safely also the supplier (Internet/ telebanking companies) have almost 100% guarantee of the identity from the user. The Canattainit BioSecureCard are the solution for improper access to buildings, stadium or transport means. The identity of the user is certain indisputably. The card has been linked inextricable to the owner of the finger impression.
The Canattainit Biosecurecard™ is the first Smart-Card with an integrated biometrics Fingerprint-Identification-System, encryption and signature-algorithm and protected storage for the multifunctional use world-wide.
The Biosecurecard™ is the result of extensive experience in the design of complex security-solutions and through combination of most modern micro-electronic components, biometrics algorithms, security and operating system-technologies, a fraud and miss use, security unequal until now with electronic identifications. The Canattainit Biosecurecard™ makes the substitute of uncertain PIN's and passwords through the fingerprint based applications possible for the first time. Size specifications card: Norm ISO 7816-1; standard size 85,6 x 54,0 x 0,76 mm using material PVC or Polyester, or Polycarbonate. Physical size specifications and position between contacts and microchip & fingerprint sensor must on Norm ISO 7816-2 The card reader (USB connector) must have a physical look a like, like a smartcard reader For the Norm ISO 7815-7816
The Smart-Card-Controller chip integrated in the identification puts the processor necessary for the multifunctional use -, code -, signature - and storage-functions to the disposal and is compatible for 7816 Smart-Card-Reader to conventional ISO. The Smart-Card-Controller is connected over an internal interface (I/O-Interface) with the Fingerprint-Identification-System. About this the result of the Fingerprint-Verification can be finished reading and the manual input will reimburse PIN on so. The elite of the fingerprint - data of the integrated Fingerprint-Identification-System is not possible.
The elite technology of the personal-referential identification-data (not the fingerprint-data) from the Smart Card controller chip as well as the utilization its code - and signature-functions could be taken place in computers through any customary personnel with conventional Smart-Card-reader in principle. This is especially with the multifunctional use of the identification for private and public Identification - and signature-applications, like for example, e-Banking, e-Commerce, e-Government or Healthcare necessary and mean full. A describing of the Canattainit Biosecurecard™ with person-referential data as well as the storage of the biometrics characteristics, fingerprint, hand-geometry, face.
The biometrics Fingerprint-Identification-System integrated on the Canattainit Biosecurecard™ makes the automatic check up of the fingerprint and of the user codified stored fingerprint-data and of the identification-possessor with them on the card possible. The integrated Fingerprint-Identification-System is independent from the Smart-Card-controller and comprises the recording, storage and verification of the fingerprint on the Biosecurecard™ . An integrated living-recognition of the finger guarantee highest security against forgery.
The Canattainit WindSail Vertical Axis Wind Turbine (CWVAWT) converts wind energy to electrical power. The VAWT is an omni-directional low wind-speed generator that may be easily installed practically anywhere with good wind exposure. The VAWT is seen as a solid object as the rotational speed increases, making it visible to birds. The VAWT has a 3-phase A.C electrical power connection and 3-phase rectifier. The Sail enhances wind speed and evenly provides energy to one or multiple VAT cages and/or generators for maximum power production. The total number of cages and generator selection is dependent on the specific site dynamics. A wind energy to electrical power conversion device provides a protected multiple turbine mechanism axially aligned to convert kinetic energy of a moving fluid (e.g., wind) into rotational mechanical power by the reaction of the moving fluid with the turbine. The conversion device may either be configured as a vertical axis wind turbine (VAWT) or horizontal axis wind turbine (HAWT). An associated wind gathering sail automatically repositions to maximize wind intake and to collect and concentrate the wind prior to converting the wind into energy via the axially aligned multi-turbine mechanism. The remaining wind is released via a leeward-facing exhaust. The axially aligned multi-turbine mechanism avoids interference by birds and other outside objects due to its inherent structural visibility.
The Permanent Magnet Generator (PMG) converts the rotational energy of the rotor into electricity. The PMG is a direct drive generator with one moving part. The PMG was specially designed for the Canattainit WindSail VAT and produces power at low speeds, eliminating the need for a speed-increasing gearbox. The output from the generator is three-phase alternating current (AC), but it is rectified to direct current inside the PMG housing. Since it uses permanent magnets, the PMG is generating voltage whenever the rotor is turning. The basic electrical schematic for the Canattainit WindSail VAT is shown in Figure above. The Canattainit WindSail VAT’s PMG produces three-phase alternating current (AC) that varies in voltage and frequency with the rotor speed. The AC power is rectified to direct current (DC) power by a rectifier module inside the PMG. Thus, the wire run from the wind turbine to the TriStar TS-60 is DC. Canattainit WindSail VAT Basic Electrical Schematic.The Canattainti WindSail VAT system is a state of-the-art generator system designed to charge batteries and supply electrical loads in a 12, 24 or 48 V D.C. bus based remote power systems. The voltage system you choose is based upon your average wind speed according to the following chart. Average Wind Speed Optimum System Voltage 0-5.4 m/s (0-12 mph) 12 Volts 5.4-10.8 m/s (12-24 mph) 24 Volts 10.8 m/s (24 mph) and greater 48 Volts Multiple Canattainit WindSail VAT cylinder assemblies can be connected in parallel for more power output as needed. When used in conjunction with a suitable sine wave DC-AC inverter and a 12, 24 or 48 VDC battery bank the WindSail VAT can also be connected to the power grid. Each WindSail VAT turbine consists of a .762 meter x 1.2 meter (2.5 ft. diameter, 4 ft. high), 63.5 kilograms (140 lb) wind turbine rated at 1,000 watts and a multi-function turbine and system controller made by MorningStar Corp. - the TriStar-60. The WindSail VAT vertical axis wind turbine features low wind speed performance, very high system efficiency, and no noise. The MorningStar Corp. - TriStar-60 features a solar regulator, a dump load capability, an automated time-based equalization function, and special circuitry to monitor the WindSail VAT and battery performance with remote capabilities. A complete remote power system can include other electrical components such as a solar array (optional), a battery bank (required), a dump load (optional), and an inverter (optional). These components are sometimes called the “balance of system” or BOS equipment. The wind turbine and the other BOS equipment are electrically connected in“DC-bus” architecture. The DC-bus architecture is robust and very flexible, allowing endless options for multiple and differing components. The unifying feature is that all of these components are electrically connected to the positive (+) and negative (-) DC bus, so they all experience the same DC voltage. The DC voltage of the system is largely determined by the state of charge of the battery bank and to a lesser, but still significant, extent by the charging or discharging rates (the rate at which DC current, or amps, is being created or consumed). Charging components, such as wind turbines, solar arrays, and inverter/chargers (powered by a back-up generator or the power grid), can be added to a DC-bus system with separate charge regulators and these regulators can operate completely autonomously (e.g., they do not need to communicate with each other or be coordinated using a central system controller). The separate charge regulators, whether there is just one or if there are a dozen, will respond to the DC-bus voltage and control their generators charging current. When putting together or adding to a DCbus remote power system there are a few pitfalls to avoid if possible: • Battery banks that are too small, so that battery voltage swings too much with high charging or discharging currents. • Multiple charge regulators set to the same voltage, so that there is one big step in charging current rather than several smaller ones. • Setting high voltage regulation points too low so that the batteries don’t get fully charged • Setting the low voltage disconnect (typically part of the inverter) too high so that the battery bank capacity is underutilized
The rotor cage system consists of four blades of extruded PVC. Acting like aircraft wings, the blades convert the energy of the wind into rotational forces that drive the permanent magnet generator. The cage assembly on the Canattinit WindSail VAT is the new patented design. The PVC blades are exceptionally strong, but flexible to withstand high winds and for resisting ice and snow buildup. The cage assembly has four blades that have exceptional wind capture. The cage assembly also is seen by birds as a solid object so they avoid flying into the turbine. The system generates no noise or vibration, so wildlife (or your neighbours) is unlikely to object to the presence of the Canattinit WindSail VAT. The Canattinit WindSail VAT is easily assembled. The cage is attached to the rotor that extends to the base of the tower to interface to the generator system. The generators are located at eye level for ease of assembly and maintainability. Three vertical supports supply unsurpassed stability to the entire assembly and simplify accessibility to the components. The Canattinit WindSail should begin to rotate when the wind speed reaches approximately 1.8m/s or 4 mph. Battery charging will commence on a 12 Volt battery system at about 3.1 m/s (7 mph), on a 24 Volt battery system at about 5.4 m/s (12 mph) and on a 48 Volt battery system at about 10.8 m/s (24 mph). The Canattinit WindSail VAT VAWT performs extremely well under high wind conditions. Since there is no need to protect itself as do propeller based systems, the Canattinit WindSail VAT simply cannot spin any faster at above about 42.75 m/s (95 mph). The Canattinit WindSail VAT just appears as wind loading at that point and the wind simply goes around the Canattinit WindSail VAT as it is putting out full power. The Canattinit WindSail VAT puts out maximum power at about 27 m/s (60 mph).
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Canattainit Tenus Security Systems (CTSS) is created to meet the needs of a 21st century society; a security technology company committed to protection the people and institutions worldwide the Tenus™ is a truly innovative technology. It will change the way airports; seaports, embassies and other "secure" environments define a secure environment for years to come. Following the tragic events around the world, when governments and private concerns began to test various means of providing safety and security, effective solutions have been elusive. Canattainit Tenus™ provides a solution that is an authentic game-changer by harnessing science and technology to enhance national security, international security, and the personal safety of individuals. In the universe of international security systems, the Tenus™ 3.0 (Tenus) is a truly disruptive technology. It will change the way airports, seaports, embassies and other "secure" environments using passive measures to define a secure environment for years to come. Following the tragic events of September 11, 2001, when governments and private concerns began to test various means of providing safety and security, effective solutions have been elusive. RSS's Tenus provides a solution that is an authentic game-changer. The Tenus™ 3.0 is a proprietary hardware and software modular device that integrates existing commercial-off-the-shelf (COTS) technology eg. hyperspectral camera, chemical/biological, video, audio, RFID, etc. sensors to identify, assess and act on potential threats in near real time. It is a turnkey solution meant to provide an automated, continuous and invisible detection of potential risks within a secure environment. The Tenus devices form a seamless perimeter network, which replaces and enhances man-powered security services (like TSA) by automating the scanning, detection, and tracking process thereby covering broader areas of concern much more efficiently. It makes it possible for security personnel to avoid the use of politically charged, usually controversial programs like the "profiling" of potential terrorists because it is an essentially neutral, database information-gathering system.
The Tenus harnesses science and technology to enhance national security, international security, and the personal safety of individuals. In today's highly dangerous and complex environment of international terrorism and the need for heightened security, both governments and private institutions are charged with the necessity and responsibility to protect citizens and facilities necessary for travel, commerce, and manufacturing and civilized society as we know it. The Tenus system provides the most effective and cost-efficient solution available in the security market.
Canattainit uses similar tech for the detection at the molecular level to identify particles of interest in this case we have the sensitivity set for volatile matter and integrate several other technologies. Canattainit Tenus Security Systems creates an electronic web of security against the nefarious people of this world. The Tenus system detects, analyzes, and recognizes chemicals and substances likely to be harmful to public safety. In an environment requiring differing degrees of security, there are solutions that exist which can aggressively address and provide answers to potential and existing threats. These solutions take the form of digital video surveillance, chemical/biological detection, acoustic detection, etc. The solutions by themselves are state-of-the-art and are basically only 2 dimensional when solving the problem. These solutions also can be extremely labor-intensive if they cannot be automated which introduces a lot of potential errors in a highly charged situation. There is also a critical need to understand the entire environment to be secured from air sampling to real time facial recognition. In order to achieve the desired goal of complete security, one must be able to integrate many sensors into a single environment; provide recommendations for threat mitigation in real time. Today this is being solved through manual, labor-intensive means. Rarely is this ever completely effective. As a result, the Tenus was invented, designed and developed to address and solve these security shortcoming
The Tenus system detects, analyzes, and recognizes rapid changes in ambient activity through highly sensitive sensors that are providing near real time combined recommendations to mitigate a potentially harmful or dangerous situation. This is achieved by a series of proprietary processes that can provide and achieve 3 dimensional synergy from within existing technology. Each Tenus system can function alone, or work in a peer-to-peer and/or networked environment to deliver complete perimeter coverage. Additionally, the Tenus can adapt to its environment and continually update its learning capabilities using advanced Artificial Intelligence techniques.
For example, chemicals and other foreign substances are likely to be harmful to public safety. Using an extensive library of detection algorithms, the Tenus can detect potentially harmful or dangerous substances in the vicinity, quickly identify the material based on comparison of spectral data within the detection library, and provide instantaneous, autonomous notification of the triggered event. Because all materials and substances have a specific chemical makeup and therefore a unique spectral signature, virtually anything can be detected and tracked with the Tenus. The comparison digital database can be quickly modified and updated to search for the selected chemicals or substances. Substances to be identified and detected are first carefully analyzed in a controlled environment, separated into spectral components, and logged in the detection library. When the Tenus™ scans an area, software analyzes the scene's spectral signatures and queries the database for known substances. When a match is found, the software automatically notifies security personnel.
The complete compound digital signature of an individual can also be compiled and logged immediately, enabling a host of additional tracking capabilities, such as facial recognition. When the Tenus™ detects an event involving an individual with explosive residue on his or her clothing, and the software logs the complete digital signature, they can be immediately detained.
The complete digital signature of an individual can also be compiled and logged immediately, enabling a host of additional tracking capabilities, such as facial recognition. Tenus can mount to a turret to deliver 360-degree coverage and rapid deployment into fast-changing environments. In this scenario, the Tenus detects explosive residue on a vehicle door and the cargo area. It also detects explosive residue on the body, hands and feet of a person in line. The Tenus can also track the individual in occluded intervals and/or distance future at any region where the Tenus has been deployed. When the individual enters Tenus deployment location, the compound digital signature acquires the individual, quickly compares and matches it with the signature on file, and if a particular signature has been flagged as critical, can deploy tracking for the event again. Through customization, the system provides licensed authorities with further multi-dimenstional detection tracking for events involving additional persons of interest who are observed in contact with the individual.
The entire system is autonomous, from the constant monitoring of an area with the Tenus Module to the detection of substances and digital signatures and database comparison, matching, and alerting features. Each Tenus Module is interconnected with every other module, designed with the unique core system architecture, as well as an extensive, multi-layered backend, which supports the Signature Database along with all other off-site storage hardware and software. Multiple, redundant data streams from diverse sources (including copper, fiber, GPS, Satellite, MPLS wireless and mobile carriers) are aggregated in each Tenus unit to provide this interconnection while also ensuring the maximum available bandwidth to each unit. The secure, managed off-site server cluster supports spectral analysis processing and signature comparison for the spectral data the Tenus Module provides. Licensed users can access to a particular data stream can monitor the given situation/event remotely via the secure connection as well--from anywhere in the world.
Each user intending to monitor the area around a Tenus Unit(s) will be required to obtain a license to access and use the module. This license will provide authentication for the user, and a unique account, which isolates the user and secures all data collected. The licensing system allows for custom configuration of event notifications, materials to track, specific times for tracking, and a host of options. In this manner, each licensed user has access to the same detection and tracking capabilities on the same Tenus, but in a completely separate, customizable, and secure fashion.
The Tenus system is capable of the autonomous detection of any range of known substances, and subsequent alerting, tracking, and monitoring for events pertaining to such substances. Tracking of individuals and facial recognition is also enabled, using the spectral analysis process to catalogue the complete compound digital signature.
The Tenus Modules themselves use redundant, diverse communications techniques to ensure maximum availability and quality of bandwidth for multiple tasks. Secure, authorized, and licensed access ensures that proprietary information is available only to those it is intended for, and allows for multiple simultaneous monitoring channels functioning from the same Tenus™ Module. More information on Tenus Security Systems™ Tenus™ Module will become available at regular intervals through 2018.
With a proprietary surveying technology, Canattainit offers the 'airborne advantage'. This technology offers a unique way for companies to plan their exploration programs, as it can be done over virtually any terrain and the cost per area is much lower than seismic programs and this technology provides advantages that complement and enhance other exploration techniques. Canattainit utilizes receptors for the detection at the molecular level to identify particles of interest in this case we have the sensitivity set for hydrocarbons and can arrange a program to explore your fields of interest.
This Airborne technology beyond proof of concept stage. It allows direct detection of hydrocarbons through detection of micro seeps · We retains the intellectual property under patents. The application of Aerial Surveys service can be diversified into other stages of the O&G cycle such as mapping steam floods in SAGD applications · Allows surveying of 800 linear kms/day at 35-40m spacing. The max range of Aerial Surveys can be extended according to the carrier plane. Non-intrusive & environmentally acceptable and an all-season technology that is terrain neutral · Works on land or offshore (tried in Boreal forests of Canada as well as desert of central Australia and up to offshore) Aerial Surveys can be introduced to clients as a direct contractor or it can be a sub-contractor to one of the major service providers. The goal is not to clash against the Seismic service providers as much as being a tool to confirm the Seismic data interpretation or other supplementary data. Diverse client portfolio including international oil companies, service companies, national oil companies and governments. All O&G companies exploring for PRESSURED Oil or Gas reservoirs. This applies to North America, and other locations. Especially in areas where there are rough Terrains. Such conditions exist over all continents, such as the Middle East and Africa for example, and it leads to high expenditures on exploration activities especially during the up cycle of O&G market.
This is the only process that actually detects oil and gas reserves underground that can provide a valuable exploration tool to oil and gas companies worldwide. With a proprietary surveying technology, Canattainit offers the 'airborne advantage'. This technology offers a unique way for companies to plan their exploration programs, as it can be done over virtually any terrain and the cost per area is much lower than seismic programs and this technology provides advantages that complement and enhance other exploration techniques. . The technology has been developed for 14 years and has now done the commercialization of the Technology with more than 20 surveys . Another business is developed which is detection of pipeline leaks. The same concept of micro seeps detection applies to facilities and pipelines, which helps in reducing the environmental risk of these facilities due to the early detection of any potential leaks.
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