Tag: wearable tech

These wearable technology gadgets are highly popular but may also be used for legal purposes.

Consumers who purchase and use fitness trackers for the purposes of monitoring their health and activity levels may be surprised to discover that those same devices could actually be used against them in a court of law.

This type of wearable technology can monitor a lot about a person, providing useful legal evidence.

Various types of fitness trackers have been flying off the shelves, from Fitbits to Jawbones and smartwatches. They are used to track your steps and calorie burning, as well as your heart rate and sleep, in some cases. However, in a court of law, this can also provide a considerable amount of information to help to determine what the wearer was doing at the time of an incident. According to Bruce Hagen, an attorney from Atlanta whose firm has a specialty in bicycle accident cases, “This is the same as the black box data you would get on a car or a truck or an airplane.” Hagen has been requesting fitness data from his clients for a year.

The fitness trackers help to show how active a person was before an incident occurred.

While the wearable technology was being used to track the wearer’s activity, it can actually provide a record of that individual’s life. Some situations allow the data to be used to reveal how active a person had been, on average, before an accident, and how that trend changed following a crash. This type of data can help to provide evidence with regards to a person’s honesty about the impact an accident has had on their lives or “it can also catch them in a lie if it comes to that,” explained Hagen.

The first time this type of evidence from wearables was ever used was from a case in rural Pennsylvania. As it turned out, the law enforcement officers from the case were the ones who thought of accessing the data from the wearable technology.

The case involved a 911 call in which a Florida woman reported a sexual assault by an unknown intruder while she had been staying at her boss’s home. For a number of reasons, Detective Chris Jones started to doubt the woman’s case as he conducted his investigation. He then realized that she had a Fitbit, and he requested her login and password in order to access the information stored within her tracking account.

The fitness tracker data showed that the wearer had taken around 1,000 steps between the time she claimed to have gone to bed and the time and phoning the police. This evidence held up in court, revealing that she had been taking the steps as she staged the crime scene.

This tiny wearable allows wearers to benefit from glucose monitoring and AR tech at the same time.

A team of researchers at the University of South Australia have now created the prototype for a piece of wearable technology in the form of a contact lens that sounds more like science fiction than actual reality.

At the same time that smart glasses haven’t seen the hoped-for adoption, this eyewear offers a unique experience.

The contact lenses have been created to be a wearable technology that is electrically conductive and that could potentially host tiny displays. The tech would make it possible for a wearer to receive health feedback, such as blood sugar levels, and would be able to take advantage of certain augmented reality displays that would be shown as an overlay on top of the actual visible environment around them.

This type of wearable technology has been the pursuit of a few different teams around the world.

That said, the University of South Australia researchers from the Future Industries Institute (FFI) have been making some astounding advancements in the area of ultra-thin film tech sensors and displays. Previously, the same team of researchers have managed to come up with a type of thin reflective film coating that would improve the efficiency of vehicles. This same material could be used for the creation of smart windows on a building, so the amount of sunlight entering a room could be controlled.

That said, the most recent focus of the team has changed directions to a more medical pursuit. According to Drew Evans, an FII associate professor from the research team, “We have always known that our film coating technologies had potential for many applications and now we have taken that a step further by proving that we can make biocompatible, conducting polymers at the nanoscale and grow them directly on a contact lens.”

The wearable technology prototype was designed by using a layer of hydrated hydrogel substrates on the lens, which made it possible for a PEDOT polymer to be added to the lens surface. That polymer was engineered to be highly conductive at the same time that it is bio-compatible. Moreover, the team treated the hydrogel with plasma ahead of the application in order to ensure improved adhesion.