Systems and methods according to one or more embodiments are provided for capturing images of an area of interest proximate to an aircraft, and securely transmitting the images as data files over an encrypted communication network associated with the aircraft. In one example, a system includes an image capture device configured to be secured to an aircraft to capture a plurality of images of a field of view of an area of interest proximate to the aircraft. The system also includes a processor configured to receive the plurality of captured images and convert the captured images to a plurality of data files. The system further includes a memory configured to store the data files, and a communication interface configured to connect to an encrypted communication network associated with the aircraft, wherein the communication interface is configured to securely transmit the data files over the encrypted communication network.

A multi-function device (MFD) is disclosed. For example, the MFD includes a communication interface to establish a communication path with a remote server, a user interface to receive a request to create an electronic file based on a scan of a document, a processor, and a non-transitory computer-readable medium storing a plurality of instructions. The instructions when executed by the processor cause the processor to scan the document to create the electronic file of the document, generate an encryption code associated with the electronic file of the document that is scanned, and transmit the electronic file to the remote server.

A document printing system may include a print engine, a controller and a communication port. The communication port can read a portable memory device, which stores an electronic secure file for authorizing the print engine. The portable memory device may store data such as the creation date for the electronic secure file. The portable memory may also store the device identification code and/or the vendor identification code. The electronic secure file may also store the creation date for the file itself, and the device identification code, the vendor identification code, or a balance amount. The system may authorize a print engine by comparing the data in the electronic secure file and data stored on the portable memory device. If the comparison of data finds a mismatch, the system may determine that the print engine is not authorized; or that the service is authorized if otherwise.

The invention provides a method for impeding making a useful copy with an optical recording device of video content displayed on a screen, wherein the method comprises displaying the video content on the screen, illuminating with ambience light of an ambience light source the screen, the ambience light comprises light having a wavelength in the visible part of the spectrum, wherein the ambience light is controlled as function of the video content, and wherein the ambience light is intensity modulated with an intensity modulation having an intensity modulation frequency selected from the range of 40 Hz to 500 Hz.

A cell phone is disclosed for acquiring information to be transmitted to a receiving facility and for transmitting such thereto. A capture device captures information from an external source. A processor is provided for associating with the captured information a representation of the date and time of the capture of the information, such that the representation of the date and time information in association with the captured information forms augmented captured information. The processor also places the augmented captured information in association with subscriber information in a transmission of the augmented captured information to a receiving facility requiring such subscriber information. A transmitter transmits the transmission including the augmented captured information and the subscriber information to the receiving facility. An encryptor encrypts the augmented captured information with a symmetrical encryption algorithm to provide encrypted augmented captured information in the transmission with the subscriber information.

An encrypted file printing system includes: a client terminal configured to generate a print file; an authorization management server configured to manage authorization of the print file; and an image forming apparatus configured to perform printing of the print file, the client terminal, the authorization management server, and the image forming apparatus being connected by a communication network, wherein the authorization management server includes: a key generating unit; and a decrypting unit, the client terminal includes: an encrypting unit; and a print instructing unit, the image forming apparatus includes: a decrypting unit; a rasterizing unit; a memory; and a control unit, and the control unit includes: a complexity calculating unit; a processing time calculating unit configured to calculate a first processing time in a first processing mode and a second processing time in a second processing mode; and a decryption destination determining unit.

Digital media can be automatically transferred between a digital capture device or storage device and one or more other devices with little or no user intervention. Media can be selected for automatic transfer based on one or more media-content or media-context characteristics.

A method, system, and processor-executable software for processing images or video captured by a smartphone or other digital image capture device for subsequent validation and authentication captures not only the image, but also metadata relevant to the authenticity of validity of the image, such as position, time, camera movement and orientation, image parameters, and so forth. The image is watermarked and both the watermarked image and the metadata, as well as a symmetric key used in the watermarking, are digitally signed and transmitted or uploaded to a web server or authentication centric entity for authentication and storage. When a third party submits an image to the web server or authentication centric entity, the submitted image is compared with the stored watermarked image for authentication and validation of the submitted image, and the metadata is then retrieved to enable analysis of the contents of authenticated and validated image.

A method, system, and processor-executable software for processing images or video captured by a smartphone or other digital image capture device for subsequent validation and authentication captures not only the image, but also metadata relevant to the authenticity of validity of the image, such as position, time, camera movement and orientation, image parameters, and so forth. The image is watermarked and both the watermarked image and the metadata, as well as a symmetric key used in the watermarking, are digitally signed and transmitted or uploaded to a web server or authentication centric entity for authentication and storage. When a third party submits an image to the web server or authentication centric entity, the submitted image is compared with the stored watermarked image for authentication and validation of the submitted image, and the metadata is then retrieved to enable analysis of the contents of authenticated and validated image.

A device comprising: an input for receiving images captured by a camera, of an environment illuminated by light from a light source; an image processing module; and a verification module. The image processing module is configured to process one or more of the images to decode a timestamp modulated into the light, and to output an indication of the decoded timestamp. The verification module is arranged to receive the indication of the decoded timestamp output by the image processing module, and based thereon to perform an at least partially automated verification of a time at which the one or more images were captured.