About Alert Notifications in Viewer for Axis Camera Companion

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In App Notification’s based on Motion Detection events are now available as an In App Purchase from within Viewer for AXIS Camera Companion for iOS.

What is an “In App Notification”?

An “In App Notification” is a notification that arrives to an App. A Notification appears as a banner at the top of the. A Notification normally looks like this:

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The Notification also appears in the Notification Centre.

How much does it cost?

Access to Notifications is enabled via an In App Purchase costing $2.99/£1.99/€2.69. You can buy the In App Purchase from here:

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How to set up Motion Detection Notifications

Motion Detection events are used by the camera to trigger the sending Notifications to the iOS device.

You can adjust Motion Detection settings by going to the AXIS Camera Companion PC application. For example in the PC application you can constrain the Motion Detection to occur only in a set portion of the screen.

Once you have set up Motion Detection using the PC Application you can then set up Notifications using the Mobile App. In the Mobile App go to the camera you have set up with Motion Detection and select the Notifications control panel. Here you can switch on Notifications and set the times that Notifications are active.

Motion Detection Recordings

When a Motion Detection event occurs a corresponding recording is made and stored on the SD card of the camera. When a Notification is received and clicked it will open the app in the Recordings area. The Notification text includes the time that the Motion Detection event took place. You can navigate to the corresponding recording using the time in the recording name.

Not all Cameras suit the Notifications service.

Viewer for AXIS Camera Companion Notification Service is a powerful security feature. It does not suit every camera and should be deployed with due consideration. A camera looking at a busy view (for instance a busy shop floor) is not suitable to set up with Notifications. You will simply receive too many Notifications! The Notification service should be used on camera where movement is not normal or is of specific interest (for instance the back door in the store). In this case the Notifications will be fewer, appropriate and interesting.

Viewer for AXIS Camera Companion – Android

We are pleased to announce a major update for Viewer for AXIS Camera Companion on Android. This update is an integrated Tablet and Phone app. We have increased compatibility to suit a large range of Android devices.
The App lets you:
– Connect to your AXIS Camera Companion system
– View live and recorded video from your cameras
– Manually start recordings
– Control your PTZ cameras
– Save snapshots and recordings to your device
– Supports Axis Video Encoders such as P7214

Camera Companion _ Android

Viewer for AXIS Camera Companion _ Android

My WebCam update _ improved Timelapse Webcams

My WebCam v2.10 for iPad and iPhone now has an improved feature for creating Timelapse Movies.

Simply point your webcam and the scene you want to record and set the Timelapse interval 5, 10, 30 or 35 minutes and leave the broadcaster running for up to a week.

The finished Timelapse movie can be downloaded using the My WebCam Mobile app and then shared via YouTube.

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We came across this beautiful animated timelapse webcam today from Portnellan in Scotland.

EyeSpyFX – Cognimatics People Counter

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You can now view Cognimatics True View People Counter using EyeSpyFX iOS mobile app “Viewer for AXIS Cams”.

Use the app to go to a camera that has the Cognimatics True View People Counter installed on it. When you click on the camera you will see the RED Cognimatics icon appear in the feature list. When this icon appears it means that the app has detected the presence of Cognimatics People Counter ACAP app. Follow the link to bring up the Counter statistics. – mobile intelligence!

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My WebCam Animated Timelapse Photography

One of the most popular features of My WebCam over the years has always been the ability to set up your webcam to make Timelapse sequences. Very often these sequences can be beautiful as well as being a great way to view a video summary of the day.

You can set the webcam up to take a snap every 10 minutes. 288 snapshots are collected and made into a movie you can view from within the My WebCam Mobile apps.

Now we have made this service even better. You can save the Timelapse Archive as a Movie. It gets saved as a Movie into the Photo Album. From there you can share it on FB, Twitter or YouTube or embed into a blog.

Here is one (not one of the beautiful examples) that I made a few days ago.

And here is the step by step process on the Mobile App (this feature is on the My WebCam iOS app only, We will put this feature in the Android app soon)archiveblog500

My WebCam Live List now all Mobile

My WebCam Live List on the web has been removed. This has been done to improve security and speed for Mobile users. You can still access the Live List but only via the My WebCam Mobile apps.

You can still access your personal camera via the web. Here is how: On your My WebCam Broadcaster click this button:mwc_linkbutton

This will bring you this webpage:

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Hit the Share button and you will be brought to this webpage and from here you will see embed code (allowing to embed into blogs, etc) and a tinyurl you can use to send to friends or to your self for easy reference sharepage

 

App Injection – the Internet of Things

App Injection occurs when a mobile app is used to negotiate the permissions and set up required when loading an app onto a remote “thing*” – upgrading or changing the function of the “thing”. This circumstance arises in the development of “the internet of things”

Imagine you own a “thing” as part of your portfolio of “internet of things”. You can upgrade or change the function of the “thing” by loading a new app or other software onto the thing. You use a mobile app to control the thing. To can use the mobile app to instigate a process of injecting the new software into the thing. This is called App Injection.

* The “thing” could be a car, a camera, a heating system, a network drive, etc.
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Managing Alzheimer’s using App Technology

We recently ran a project where a camera was installed in the home of a elderly person suffering from Alzheimers. She lives alone. Her family wanted to be able to check up on her while they are out at work. We provided a “Video Surveillance as a Service” (VSaaS) camera and a range of mobile apps for each of the family members. In this paper we describe the project and the main outcomes.

http://eyespyfx.com/downloads/alzheimers_mobileapps_axis.pdf

Clothes & Phones

In any 2013 class of University students;
– everyone is wearing clothes
– most students have keys in their pockets
– most students have some cash money on them
– everyone has a phone
Isn’t it amazing that people have worn clothes for thousands of years, carried keys for hundreds of years and carried cash for hundreds of years but have only carried phones for just the last 5 – 10 years? Clothes and Phones are the only two items that all students carry. A revised “hierarchy of needs” might reasonably now link warmth and connectivity.

The phone has taken up permanent residence in people’s pockets and bags. Even while sleeping it often can be found under the pillow.
In view of our visceral wholly encompassing attachment to phones it seems rational to suppose that a body network will power other phone like interfaces that are more easily accessed than taking a phone out of a pocket and holding it to the ear to make a call. On reflection it seems absurd to carry a black rectangular box in your pocket and then lift and out and twiddle with it and put it back in your pocket. How did we get here? Will films made in 2013 be easily time calibrated because actors do the handheld phone maneuver?

Ideally, theoretically, phones and people may merge with a total embodiment of the phone into the nervous system? Just thinking about a phone call will cause instantaneous connection and thinking the words will automatically send a message. Of course an internally mounted phone/human scenario would be nice but it still seems like a very remote possibility, but exo-skeletal phone accessories are already commonplace. Bluetooth headsets for taking calls while driving are an indicator of what is to come. Men’s jackets commonly have two inside pockets, one for a wallet one for a phone, ☺. The Pebble watch concept offers easy to read texts and convenient switching on/off phone calls. The Pebble and the Headset together tend to point toward the idea of the phone increasingly staying put in the pocket while phone functions are carried out using a body network and peripheral accessories. Building on this idea Golden Krishna from Samsung tweeted at SXSW13 @goldenkrishna “we serve computers but its time computers serve us” #NoUI

So what are the challenges and where are the likely opportunities for a co-joined future of clothes and phones or indeed a bodily-embedded phone? Here is a quick look at the components of the problem, at least the components of the problem of the phone as it appears today.

Screens:
It is hard to imagine a phone without a screen. The screen could be very small, small enough perhaps to fit into a contact lens, perhaps there may even be a Nano scale device that could be implanted on the retina. We could train our eyes to use the area of the retina that sees the screen. More realistically Google glasses and many other projects have shown the possibility of screens mounted into glasses. Of course the downside of needing to wear glasses has to be overlooked.
There have been lots of prototype foldable, roll-able and bendable, screens. Bendable screens could more easily fit the shape of the body. A folding screen could fold out to suit the size of screen required for the occasion.
Multiple screens positioned around the body could offer an alternative method to control the phone. The Pebble watch is a pioneer design in that idea domain. One could also imagine screens worn on a ring, a bracelet, a necklace.
Another idea would be that your phone could connect with any nearby screen, adopting a tablet or laptop as a temporary big screen.

Type input:
Typing stuff in has proven itself to be a very good survivor in the evolution of computing. Candidate ideas that could dispense with typing include; voice recognition, context based intelligence, gestures and a different sort of keyboard.
Voice recognition input of commands has recently been sent to the fore with the launch of SIRI. Some may say it was sent backwards with SIRI. Is voice recognition command input one of those since fiction wishes that turn out to be a real life disappointment (like video telephony)?
Another idea is that the phone can understand the context the user is in at any one moment and automatically deduces what you want to do and sets the command up for you without much or any human input.
Gestures could become a useful additional way to control your phone. To make a call we could simply small finger, index finger symbol for phone call to initiate a new call.
There have been lots of design suggestions for better keyboard layouts than QWERTY. None have been adopted. The power of “it is this way because that is the way it was yesterday” has taken very strong hold over keyboards.

Batteries:
Bulky heavy batteries cause problems for embedding phones into clothes and for wearing phones bodily. Charging the battery is also difficult. Today you need to plug the phone in somewhere – off body.
Potentially there may be an opportunity to trickle charge a battery derived from the kinetic and or heat energy of the body. This charging could be supplemented with solar charging. If the battery was being constantly charged maybe it could be smaller and if that were so then perhaps it could be concealed in an item of clothing or implanted bodily in some soft tissue.

Storage:
To say any technological problem is solved is to in part suggest that further innovation is not required. That is not the case with storage, however current storage technology such as a 32GB micro SD card is small enough and good enough to be sewn into a t – shirt or embedded in the body with a day surgery procedure. Unlimited storage can be accessed in the Cloud. Problem solved!

Processing:
We already have a powerful computer in a phone. Moore’s law suggests that computing power will increase exponentially. The processor part of the phone is already small, it seems certain that we can wear or embed a powerful processor on or in the body. Biotechnology based developments may even provide us in the future with computation ability built using the living fabric of the body. So it seems that phones and clothes are destined for each other but that is only a start point.

Systems and software:
This is where all the action is going to be. The idea of a worn personal computer – a computer for life – is unprecedented. Pop up context based alerts with relevant information served at the right moment and context ranging from short texts to rich media seems like a certain area for development. We are beginning to see the first clues as to how that concept may form in the way that people are using smart phones, notifications and apps today.