A method for accessing content at a device, wherein the device is arranged to execute a digital rights management (DRM) client of a DRM system and wherein the device is arranged to receive a broadcast signal comprising a plurality of encrypted portions of content for an item of content, each encrypted portion being packaged in a format of a conditional access system and being decryptable using a corresponding decryption key, wherein the method comprises an application executing on the device performing the steps of: for each of one or more of the encrypted portions: converting said encrypted portion from being packaged in the format of the conditional access system to being packaged in a format of the DRM system; providing said encrypted portion is packaged in the format of the DRM system to the DRM client; and either (a) providing a rights object according to the DRM system to the DRM client or (b) triggering the DRM client to obtain a rights object according to the DRM system; wherein the rights object corresponds to said encrypted portion by comprising decryption key data for use by the DRM client to obtain the decryption key corresponding to said encrypted portion.

A method of decrypting a streaming image includes: receiving a packet including at least an item which is encrypted, the item including at least one parameter used for decoding image data included in the streaming image; decrypting the item; and decoding the image data included in the streaming image based on the decrypted item, wherein the image data is not encrypted.

A method of encoding and encrypting input data (D1) to generate corresponding encoded and encrypted data (E2) is provided. The input data (D1) is encoded to generate intermediate encoded data streams. The intermediate encoded data streams include at least one critical data stream that is critical and essential for subsequent decoding of one or more remaining data streams of the intermediate encoded data streams. The at least one critical data stream is encrypted using one or more encryption algorithms to generate at least one intermediate encrypted data stream. Subsequently, unencrypted portions of the intermediate encoded data streams are merged together with the at least one intermediate encrypted data stream to generate the encoded and encrypted data (E2).

A method for accessing content at a device, wherein the device is arranged to execute a digital rights management (DRM) client of a DRM system and wherein the device is arranged to receive a broadcast signal comprising a plurality of encrypted portions of content for an item of content, each encrypted portion being packaged in a format of a conditional access system and being decryptable using a corresponding decryption key, wherein the method comprises an application executing on the device performing the steps of: for each of one or more of the encrypted portions: converting said encrypted portion from being packaged in the format of the conditional access system to being packaged in a format of the DRM system; providing said encrypted portion is packaged in the format of the DRM system to the DRM client; and either (a) providing a rights object according to the DRM system to the DRM client or (b) triggering the DRM client to obtain a rights object according to the DRM system; wherein the rights object corresponds to said encrypted portion by comprising decryption key data for use by the DRM client to obtain the decryption key corresponding to said encrypted portion.

In one embodiment, an apparatus includes a processor to receive a primary video, select first sections of the primary video in which to include units of data for use in watermarking, select second sections of the primary video, each second section including a first data item without which at least one video unit of the primary video cannot be rendered or rendered correctly, replace each first section with at least two watermark variants, replace each second section with at least two watermark variant decoys, wherein the apparatus is operative to operate in an environment including an end-user device operative to select one of the watermark variants for each first section and one of the watermark variant decoys for each second section for rendering as part of an interleaved video stream including the primary video in order to embed units of data of an identification in the interleaved video stream.

According to examples there may be provided a method of implementing an enhancement decoding, comprising: creating one or more source buffers to receive an encoded video stream, the encoded video stream comprising an encrypted base video signal and an enhancement video signal; in a secure execution space, creating one or more protected input buffers and one or more protected output buffers to receive decrypted data; passing the one or more source buffers and the one or more protected input buffers to a decryption module to decrypt the encrypted base video signal and store the decrypted base video signal in the one or more protected input buffers; passing the one or more protected input buffers to a base decoder to implement a base decoding layer to decode the decrypted base video signal; passing the one or more source buffers to the secure execution space for decoding the enhancement video signal using an enhancement decoder.

Systems and methods for content-protecting video codecs are described. At least one embodiment of the invention comprises a system for protecting video content comprising computer memory comprising a stored set of instructions for processing video data; and at least one microprocessor configured to process the video data according to the stored set of instructions, the stored set of instructions requiring identification of data to be removed, at least a portion of which is essential to obtaining a visually acceptable reproduction of video, the stored set of instructions being further configured to replace removed data with data-hiding values, wherein the visually acceptable reproduction of video cannot be generated without a key that enables recovery of enough of the removed data from the data-hiding values that replaced the removed data.

Techniques for a smartphone-based conditional access (CA) system are described. In some embodiments, a headend in the CA system obtains a security profile associated with a pair of receiving devices used by a user, e.g., a first device (e.g., a smartphone) and a second device (e.g., a set-top-box or a TV). The headend dynamically regulates user access to requested media content during each entitlement period by assigning and distributing separate keys to the first and second device based on the security profile. The headend also uses the distributed keys to protect the media content before broadcasting. On the receiving end, one receiving device receives the media content and determines whether it is decryptable by the device. If decryptable, the receiving device (e.g., the set-top-box/TV) decrypts the media content using the keys assigned by the headend. Otherwise, the receiving device forwards the media content to the pairing device for decryption.

Image encryption in which excessive concealment of information is prevented while reduction in cost is achieved by eliminating a need for a receiving side of an image to take measures against leakage of personal information is realized. In one example, a sensor device includes an array sensor with pixels having a light receiving element of visible or invisible light. A detector detects a target area on the basis of an image signal obtained by the array sensor. The target area in the image signal is encrypted on the basis of information from the detector. Thus, encryption of the image signal can be performed in the image sensor at least to the extent that no individual can be identified. Also, depending on a decryption key on a receiving side of the image, a part of the content of the image can be visually recognized while personal information is concealed.