This invention relates to digital video, and more specifically to a method for creating a flipbook from a digital video.
Unlike digital photography, digital video does not currently have a mainstream, commercial, analog medium to which it can be printed for the purposes of sharing and preservation. Digital video is instead typically shared via conventional digital venues such as computer screens and disks.
A flipbook is a small book consisting of a series of images that give the illusion of continuous movement when the edges of the pages are flipped quickly. Commercially produced flipbooks have been created and sold as a novelty since 1868 using drawings and photographs. These flipbooks are typically created using mass-production printing methods in large quantities.
More recently, software has been developed that allows the user to format and to print flipbooks using the user's own QuickTime-formatted video.
Use of the same reference numbers in different figures indicates similar or identical elements.
One object of this invention is to provide a method for producing flipbooks over a network. The method in one embodiment includes receiving a video over the network from a client device, converting the video to a standard video format, adjusting a frame rate of the video to a standard frame rate, adjusting a frame size of the video to a standard frame size, generating a printable document from a group of videos including the video, wherein each page of the printable document includes one frame from each video in the group of videos, and printing the printable document to create a printed document. The method may further include cutting the printed document to form individual stacks of printed frames and binding the stacks to produce the individual flipbooks.
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In step 102, a server 202 (
The sequences of images contemplated by this invention generally may be any collection of images. However, in preferred embodiments, the images in the collection of images are arranged such that each image is slightly different from the previous image. Non-limiting examples of sequences of images contemplated by this invention include digital video, computer animation, a series of photographs, and a series of computer-generated or hand drawings.
The client device is not particularly limited and can be any device which is capable of storing images and connecting to a network so that the images may be transmitted. Non-limiting examples of client devices include a personal computer 208 (
In step 104, server 202 converts the sequence of images into a format that is suitable for creating flipbooks in method 100. For example, when the sequence of images is in the form of a digital video 204, the server 202 may convert the digital video from any video format including avi, mov, and or mpg into a common format to be worked on by the server.
In step 106, server 202 adjusts the frame rate of video 204 to one of several predetermined frame rates used to create flipbooks in method 100. The frame rates of server 202 are arbitrary and may be specified by the user or the server. The frame rate depends on the size of the flipbook the customer wishes to order. The server may reduce or increase the total number of frames in video 204. In certain preferred embodiments, the number of frames is less than 300, and more preferably between 150 to 200 frames. However, this invention also contemplates situations where the total number of frames created by server 202 is greater than 300, such as, for example, when a customer desires a thick flipbook.
In step 108, server 202 adjusts the frame size of video 204. The frame size is adjusted in order to set the size of the image appearing on each page of the flip book. In principle, any frame size may be used, but in preferred embodiments, a standard frame sizes is adopted to create flipbooks in method 100. For example, server 202 operating on a digital video may adjust the frame size of video 204 to 1¼ by 3½ inches. The resulting frame size depends on the size of the flipbook the customer wishes to order.
In step 110, server 202 transmits a preview of the personalized flipbook to the client device for the customer. For example, the preview may be presented as a flash animation, whereby the sequence of images is shown in rapid succession to the customer. The preview may also allow the customer to review each image in the sequence of images one-by-one.
In step 112, server 202 receives one or more editing instructions from the customer using the client device or a predetermined set of instructions on the client device itself. For example, when the sequence of images is digital video, a customer on the client device may wish to change the length of the video, perform color corrections, add visual effects, split the video into multiple videos, merge multiple videos into one video, and further adjust the frame rate of the video. In response to the editing instructions, server 202 conventionally modifies video 204. Steps 110 and 112 may be repeated until the customer is satisfied with the result.
In step 114, server 202 groups video 204 with other videos 302, 304, and 306 (
In step 116, server 202 generates a printable document 308 (
In step 118, server 202 sends printable document 308 to a digital printer 216 to generate a printed document 218 (
In step 120, printed document 218 is bound and cut (or vice versa) by professional equipment 220 (
As described above, an easy-to-use online method has been provided for non-technical users to be able to upload their personal digital videos for the purpose of creating their own custom flipbooks. By collating multiple flipbook orders into a single print job, the method efficiently produces small quantities of personalized flipbooks for the customers. Furthermore, whereas other flipbook providers use traditional presses that require calibrations, the present method uses digital printers that requires little configuration for each print job.
Various other adaptations and combinations of features of the embodiments disclosed are within the scope of the invention. For example, although flipbooks are specifically mentioned, method 100 may be used to create a book of personalized stickers that consist of the frames of the video, a notepad with a flipbook feature located on the pages of the notepad, and frames used to make a zoetrope. Numerous embodiments are encompassed by the following claims.