It’s hard to imagine a modern day without video surveillance cameras, smart
phones, tablet cameras, dashboard cameras, action cameras, and body cams. Thousands of cameras capture thousands of different events. Like unbiased witnesses, they are ready to share what they saw. Thus, when it comes to crime investigations, it’s not surprising that video recordings become the most imperative evidence. However, it’s not uncommon that recording’s setting, camera’s technical and other factors impact the quality of video recording. Sometimes, there’s no certainty that the video reflects real events.
As a result, video recording can contribute to uncovering the truth only with the involvement of video forensic experts. They leverage their expertise and specialized equipment to ensure that video recording can serve as uncontested and informative evidence during legal proceedings. Experts need to overcome many challenges and even simple videos can present significant problems. There are dozens of modern digital recording formats and analog recordings (for example, VHS). In most cases, law enforcement agencies and courts have tools that can reproduce data only from a handful of formats.
Converting video to a necessary format cannot be accomplished by simply consulting Google or downloading suitable conversion software. Innumerable surveillance system models have their own video formats without user-friendly and easily obtainable converter formats. Even if these conversion tools exist, there’s no guarantee that conversion will not destroy the image’s microscopic details that will be critical in the future. Only an expert with video coding training and reliable video forensic equipment can guarantee accurate outcome.
Retrieval of necessary information often requires more than just viewing of the video. For instance, multiple cameras can record the same event. If recordings are reproduced one after the other, it’s hard to match details. It’s much easier to accomplish this by analyzing all recordings simultaneously. But, first, recordings need to synchronized. Synchronized recordings can simultaneously reproduce the same events. This process allows to view events from different angles and capture critical details. Expert involvement is also critical when video is damaged, such as dash cam damage during automobile accident. For instance, sash cam captured the entire incident while the camera was functional, and the data remains on the memory card. The last recorded video that captured an impact cannot be reproduced using regular tools. In this case, experts can compile small fragments of video data in the right sequence. The video that was captured seconds before the impact can then be presented during court proceedings.
Expert contribution is often required when a video is missing the necessary details. It can happen for various reasons:
- Recording on handheld video devices results in shaky video.
- Recording from a distance yields small image resolution.
- Rapidly moving recorded object and slow working camera auto focus result in blurred image.
- Insufficient light and light reflecting in camera’s direction (backlighting) produces dark image.
Taking all these factors into consideration, it’s not guaranteed that a video can clearly capture car license plate or criminal’s face.Camera’s characteristics, such as frame dimensions 360X250 also impact quality.
When it comes to forensic video enhancement, it’s naïve to expect a miracle from an expert, similar to stories shown in fictitious crime shows. However, modern video enhancement software can sometimes produce miraculous results.
FORENSIC VIDEO ENHANCEMENT
One of video forensic expert’s main responsibilities is the determination of video’s authenticity and indentifying any video tampering. Video editors, even easily attainable MoveMaker, allow the deletion of video fragments or sequence editing. In this case, the resulting edited video does not capture real events. Thus, before using video evidence, it’s important to examine whether it was edited or not.
This complex task is accomplished through two phases. During the first phase, forensic expert evaluates the video to determine whether it is an original or a copy. The term original video is only used to refer to the video captured on the device during recording. Copying can simply mean that the video file was copied on a different device, the device that was not used during video recording. Copying can also refer to editing file format, resampling and recompression. Only an expert trained in video coding from different devices and video editing can conclusively indicate the video’s authenticity.
The best way to distinguish between an original and a copy is to obtain a video copy recorded on the same device as a video in question. Discovering recompressed video raises a red flag for a video forensic expert. Video recompression can indicate video editing.
However, recompressed video is not always fabricated. For instance, all YouTube videos are recompressed. Yet, very few YouTube videos were edited from the original.
As a result, the most complicated part of authenticity determination is finding remaining evidence of counterfeit video. Sometimes, easily observed simple artifacts can serve as this evidence. For instance, a suddenly appearing object in the video frame or hands of a clock that rapidly changed to a new time can prove that the video is a fake.
Professional forgery is not easily detectable without special tools such as modern forensic software. In this case, forensic experts can conclude video’s authenticity by closely inspecting various qualities of the video, such as video format, coding parameters, file structure, metadata, and, more importantly, verification of image in every one of tens or thousands of frames. It’s a very tedious and lengthy process. Without performing this analysis, experts can’t be confident that the video depicts real events and not what someone wanted us to see.
From time to time, experts are presented with a new challenge – source camera identification. This challenge can be tackled in the same way for pictures and videos. Camera ballistics technology is not very difficult. Experts needs to record several dozens of frames in a specializing setting using proven device. After that, specialized software will isolate “camera’s imprint.” Camera’s imprint is an image fragment that cannot be seen with human eyes, and that remains the same in all images. “Camera’s imprint” is then compared against “imprints” on proven authentic video and photo. This explanation might lead the reader to believe that camera identification is simple, but it’s not true. Captured image’s quality determines the simplicity with which forensic software will discover “camera’s imprints.” Poor image quality can even produce invalid “data imprints.” In order to arrive at the correct conclusion, experts need to have a deep understanding of “imprint” search algorithm, video comparison technique, and software data interpretation skillset.
Forensic expert’s contribution doesn’t stop even after proving video’s authenticity, video enhancement and ensuing that all stakeholders can view the video. Why? Because it’s not enough to see a vehicle on a video. It’s vital to be sure that a specific vehicle is shown, or, at the very least, to prove that the vehicle’s make is within the scope of the investigation.
Thus, object identification comes into play. In order to solve this issue, experts need to find identifying characteristics using an image. These characteristics need to distinguish an image from thousands of similar images. Next, it’s vital to compare verifiable object’s characteristics against duplicate object’s characteristics. This job is similar to a child’s Spot the Difference Game. Forensic expert’s ability to skillfully play this game can impact the destiny of stakeholders involved in video investigation.
During investigation, questions can arise about size and distance. Forensic photogrammetry, a branch of video forensics, gives an answer. An individual with the knowledge of simple rules of advanced spatial geometry can solve this riddle using a ruler and a pencil. When a computer performs geometric measurements, results will be obtained more rapidly and data will be more accurate.