Blog – Latest stories tagged 'internet'

A few weeks ago we discussed the importance foundation knowledge to aid understanding and teaching of e-safety. This week we are going to dive into some of the fundamentals and introduce the concept of ‘networks’

We are surrounded by networks, be it the National Electricity Grid, The Motorway system, Telephone system or the post Beaching remnants of our national railway and of course the most pertinent to e-safety - The Internet.

Put simply. A network is a system which connects a collection of things. The main business of a network is to allow something to move from one ‘node’ on a network to another. The electricity grid is about moving power to where consumption is needed, the rails network moves passengers to their desired destination and the Internet moves data to where it is required.

Networks may be arranged in different ‘topologies’, the term which describes how nodes are connected to each other. For example some networks are arranged in a ring, where each node is connected to 2 others in a continuous loop - a bit like the Circle Line on the London underground. At the opposite end of the spectrum is a network where every node is directly connected to every other. Some networks require some kind of central authority to control the flow and ‘direct traffic’, others leave it to each node to make decisions about how to get their payload to the desired location.

At this point it is probably worth stepping back a little and talking about the Internet. The Internet is not a single entity, it is in-fact made up of many, many individual networks which connect to each other and are able to interoperate because they all ‘agree’ to use the same language and conventions. In computing we call this shared set of rules a Protocol, and the protocol which the Internet is founded on is known as TCP/IP. This means that networks built in different ways, with different topologies can interact as part of the Internet, as long as they understand and abide by TCP/IP.

It is this interoperability which allows the Internet to make connections between diverse devises, allowing for instance your mobile phone to send data to your computer which can talk to your TV or even a refrigerator.

Each node on a network has an address, this is a unique code which identifies where on the Internet the node is. Not every node on the Internet is directly connected to every other, but a node does know enough about the structure of the Internet to pass the data along to another node which is logically ‘closer’ to the required destination. The Internet therefore at a simplified level works by nodes passing data along to other nodes until the data reaches its final destination.

This is important to understand as it introduces the notion of network resilience though the concept of ‘Redundancy’. Redundancy simply means that there is no single route between two nodes, there are actually multiple paths a piece of data may take to reach the destination node. If one route becomes unavailable (such as due to damage or a computer being switched off) the data finds another route.

This is best illustrated by considering the Telephone network. In the olden days, when a telephone call was made, the two telephones were literally ‘connected’ together. A series of switch boards created a link from one phone to the other. This concept is known as ‘circuit switching’. We’ve all seen picture of old film of people plugging wires into a ‘switch board’ to ‘connect’ a caller - they were manually connecting the circuit. In later years mechanical and then electronic telephone exchanges automated this job, but the concept is the same.

In modern times this idea has been abandoned. We now favour a system known as ‘Packet’ switching. Under this system there is no continuous connection. Instead the telephone converts the sound from a caller into digital information. This information is then split into little chunks called ‘packets’. Each packet of data is transported to the target telephone as a ‘discrete’ transmission. Packets may travel different routes to get to their destination and may even arrive in a different order to the one in which they were sent. However the packets contain enough extra information in them to allow them to be placed in the correct order and the sound to be reassembled by the receiving telephone.

In a circuit switched network a call can fail if the line is cut at any point along its length. In a packet switched network, a lost or damaged connection is routed around.

In actuality, the modern telephone system is a part of the Internet.

So, why should we try and understand networks if we want to better understand e-safety.

Well, the answer is in these three points:

Networks of different types can interconnect
Networks are plentiful
Networks are hard to disrupt, and hard to control.

To be continued...

According to Wikipedia, "The Internet of Things (IoT) is the network of physical objects or "things" embedded with electronics, software, sensors and connectivity to enable it to achieve greater value and service by exchanging data with the manufacturer, operator and/or other connected devices." In short an object that can connect to the Internet.

Two headlines caught my eye recently, "Is your toaster a security risk" and "Barbie gets Internet connection".

What struck me by these stories was that there seems to be no area of life that is out of reach these days when it comes to connectivity.

When I was a child, you played with your friends, they became the characters of the game and you used your imagination. If toys can now answer back, will this stifle creativity, or offer opportunities to learn and explore that are far greater? Whichever is the case, 'smart toys' are set to become more prominent in the market given the number of prototypes released at the recent New York Toy Fair.

It's no surprise that in the home, more and more objects are becoming connected. There are the obvious with smart TVs and games consoles etc, but then we move onto fridges that know what shopping you need to order and systems that mean you can control you heating and lighting remotely. In a recent conversation, I also came across a CCTV system that would allow you to unlock you door to let a (welcome) visitor in if you weren't there, all from a mobile phone app.

With the Internet affecting daily life, you would like to think that you can escape the technology when you got to sleep, but no! Manufactures have recently developed a smart bed, which feeds information about your sleep patterns to your phone. The intention is to monitor sleep behaviour to help you sleep better.

What may be surprising, given the perception of connectivity, is that current statistics suggest only a small percentage of objects are connected (around 10 million worldwide), roughly equating to 1.5 connected devices per person. However, this is predicted to reach 50 million, or an average of 8 connected devices per person in the next 5 years.

One of the big connected device launches that has been in the news recently will be the driverless car, but how long will it be before my shoes can give me directions or my toothbrush can send data to my dentist? Well, apparently, they already can!

What connected device would you like to see? Let us know using the comment section below.

The RDI and Child Internet Safety, both North West companies who are passionate about online child safety, recently joined forces.

The partnership is about raising the profile of safety of children whilst out and about via the Friendly WiFi Scheme and to communicate details of the scheme to parents and the educational sector. The announcement of the partnership also coincided with the launch of the Child Internet Safety magazine.

The Child Internet Safety magazine is free of charge, and provides an ideal reference point, with focus on everything from social media, gaming, e-commerce, internet access, internet footprint and identity, to e-safety, content filtering, and mobile devices. The information gathered together means families can celebrate the amazing resources found online and via connected devices - whilst also being well aware of all the hidden digital dangers.

Aisha Tilstone, Founder and Publisher at Child Internet Safety comments “Every child is now born into a digitally enabled world and we’re all, collectively, still learning about the benefits, and the dangers. Children are at the forefront of that, because their natural tendency to explore, communicate, and break down barriers is amplified online; any mistakes can have far-reaching consequences.”

Ed Vaizey, Minister for the Digital Economy, said: “The Friendly WiFi and Child Internet Safety partnership will make clear to parents which cafes, restaurants and other businesses have internet access that is safe for their children to use. It will help these firms ensure that families feel comfortable and make it clear to parents they are choosing a safe online environment. It will also allow parents to access the Child Internet Safety magazine, which will help show families how to stay safe online.

“This shows that businesses are responding to Government’s call to think about how they can help parents protect their children from inappropriate content online.”

To download your free copy of the Child Internet Safety magazine, please visit www.childinternetsafety.co.uk.