Computer Software

Optic fibers are used widely in the medical field for diagnosing and treating a variety of ailments. Because optic fibers can be made extremely thin and made into flexible strands, they can be used for insertion into blood vessels, lungs and other parts of the body. Optic fibers have been enabling physicians to look and work inside the body through tiny incisions with an instrument called an Endoscope. An Endoscope is a medical instrument made to carry two bundles of optic fibers inside one long tube. One bundle of optic fiber directs light at the tissue being examined, while the other bundle of optic fiber transmits light reflected from the tissue, producing a detailed image. Endoscopes may be designed to look into specific areas of the human body. For example, physicians can use the optic fibers in the Endoscope to examine knees, shoulders and other joints in the body.

Arthroscopy (pronounced ahr-THROS-kuh-pee) is a technique of using another medical instrument called the Arthroscope. This instrument is straight and cylinder-like with a series of lenses and optic fiber bundles that come in sizes of 1/12 to 1/5 inch (2 to 5 millimeters.) The Arthroscope is used to examine a joint in a body, such as knee joints, ankles, elbows, hips and shoulders. This is done by the Arthroscope being inserted into a joint of the body through a small incision. A light is then transmitted by the use of the optic fibers to the tip of the Arthroscope to illuminate the joint. The use of optic fiber through the Arthroscope enables a physician to thoroughly examine a joint for diagnosis or treatment.

Optic fibers used in the Arthroscope can be used to measure temperature and other bodily
attributes as well as being used in performing surgical procedures. The problem most commonly treated by Arthroscopy is torn cartilage in the knee. This is when a small incision is made at the joint for use of the optic fiber in the Arthroscope and then a second incision is made for the use of other surgical instruments to remove the cartilage. The primary advantage of using optic fibers through Arthroscopic surgery is that the operation can be performed through a small incision, resulting in the patient experiencing the least amount of discomfort and a healing time that is much shorter, when compared to the other methods of surgery.

Aside from the uses of the Endoscopes and the Arthroscopes, another widely used function of optic fibers in the medical field is the ability for the optical fibers to be inserted into blood vessels to give a quick and accurate analysis of blood chemistry. Physicians have also found medical use of the optical fibers to direct intense laser light at a wound to stop bleeding or to burn away abnormal tissue. Fiber optic training is necessary in the field of medicine. The use of optic fiber through medical science continues to grow rapidly to everyday to develop more new and advanced medical devices to enable physicians to provide people with better service.

With everything becoming available wireless these days a great innovation is the wireless media router. What is a wireless media router? It’s a router that allows the transmission of signals from the router to anywhere in the house that has a receiver.

Wireless routers are becoming more and more popular. They have many uses, one of which is viewing pictures and movies from your computer on your television. This comes in very handy when you have media files that you can’t burn on CD or cannot be played on your DVD player.

A second use would be to transmit paid television. For example if you paid for HBO usually you would be able to only view it on one nominated television. With the wireless media router you can send the signal you television is receiving, HBO, to any other television in the house. You can even change the channel from the remote television while viewing.

The third use would be watching television at a location where an antenna is not available. This means no more long cables leading from room to room just to be able to watch television.

Depending on the amount of receivers you have you can receive the signal from multiple televisions. How does it work? The receivers are connected to the remote televisions. The router takes the signal from the source television and distributes it to the remote televisions by way of the receiver. On the remote television a certain channel is dedicated to this receiver meaning you can watch independent television, and easily switch the channel to the signal being received from the wireless router.

This also makes running your entertainment room a breeze. The receiver can also be hooked up-to a projector making it easy to view anything you wish. This means you will not need to purchase separate DVD players VCR’s for every room.

Home security is an important issue for any person. A person’s home is their castle and they want to feel safe and secure. There are several security measures that can be implemented to ensure security such as alarms but one that ensures peace of mind is a wireless home security camera package.

What’s need in the package is a camera to fit either just outside the front or back door that transmits a wireless signal. The best one to buy would be one that has night vision to ensure you can see everything at night. The second would be a receiver. Some receivers have screens so you can watch what’s going on no matter where you are and others need to be connected to a computer or television to see the transmission

If connected to a computer or television the live feed from the camera can be directly recorded to a hard drive or a cassette or DVD depending on which is convenient. Several cameras can be implemented to get several signals meaning more coverage of the home and the surrounding area.

These wireless home security packages are common and can be purchased at most electronics stores. They are on the expensive side but are worth the purchase for the kind of technology it has. With almost everything becoming wireless these days it was only a matter of time until cameras became wireless also.

Most people need some sort of security measure in place, not for protection, but for peace of mind that they are safe in their home. Although there are several other measures that can be implemented in terms of security, the wireless home security camera is a valuable tool for keeping an eye on things at all times. It will complement any other security measure you have in place and will not disappoint.

In a previous article we discussed the basics of what a router did. We’re now going to get into a more detailed, and yes technical, explanation of how packets are transmitted as well as a few other tech specs of how routers work. So put on your learning caps because you’re in for a real mind bender.

Internet data, whether it be in the form of a web page, a downloaded file or an email message, travels over what is called a packet switching network. Basically what happens is that the data is broken up into individual packets because there is only so much data that can be transmitted at one time. Each packet is about 1500 bytes long. Each packet contains quite a bit of information including the sender’s address, the receiver’s address and of course the information being sent which includes the order of each packet how it should be put back together so that the end user can make sense of the data. The packet is sent off to its destination based on what the router believes to be the best route to follow, which is usually the route with the least amount of traffic and if possible, the shortest route. Each packet may actually given a different route depending on conditions at the time, which in a high traffic network can change every second. By doing this, the router can balance the load across the network so that no one segment gets overloaded. Also, if there is a problem with one piece of equipment in the network, the router can bypass this piece of equipment and send the packet along another route. This way if there is a problem, the entire message will still arrive intact.

In conducting this process, routers have to speak to each other. They tell each other about any problems on the network and make recommendations on routes to take. This way, paths can be reconfigured if they have to be. However, not all routers do all jobs as routers come in different sizes and have different functions.

There are what we call simple routers. A simple router is usually used in a simple small network. Simple routers simply look to see where the data packet needs to go and sends it there. It doesn’t do much else.

Slightly larger routers, which are used for slightly larger networks, do a little bit more. These routers will also enforce security for the network, protecting the network from outside attacks. They are able to do a good enough job of this that additional security software is not needed.

The largest routers are used to handle data at major points on the Internet. These routers handle millions of packets of information per second. They work very hard to configure the network as efficiently as possible. These are stand alone systems and actually have more in common with supercomputers than with a simple server one might have in a small office.

In our next instalment we’ll look at how to actually trace the path that a message has taken and some examples of transmitting packets.

Few people will really care about the path that your packet takes when sending a message, but if you’re one of those high tech egg heads then this article may be of great interest to you. It can become very addictive so proceed with caution.

If you’re using a Microsoft Windows based operation system, then it’s very easy to trace the route that your message has taken. Not only that, you can see exactly how many routers it took to get your message from point A to point B. You can do this by using a program that is on your computer called Traceroute. That is exactly what the program does. It traces the route a message takes to get to its final destination.

To run the program you have to go to a DOS prompt. After doing this, go to the C:\windows directory and type tracert followed by the URL of the Internet site you’re connected to at the time. It will give you a rather technical spec sheet of every IP address it stopped at along the way until it got to its final destination.

The first number on the spec sheet tells you how many routers it went through to get to its final destination. Then each individual router listed on the page is numbered from 1 down to the last one which is actually the final destination. The next 3 numbers on each line for each router shows how long the packet took to get to that router. The next piece of information on each line is the actual name of the router the information went through. Yes, routers have names. This may be important to the users but is totally irrelevant to the router itself. Finally, the last piece of info on each line is the actual IP address of the router itself.

The amount of time it takes information to get from one router to another varies depending on how much traffic there is on that route at the time. Normally, it is no more than a couple of seconds. But occasionally, it can be longer. That is why sometimes you will be trying to access a web site and it seems to take forever. This can be for a number of reasons, but usually it is because along the way one of the routers is not working correctly and has to be bypassed. Sometimes the actual final location itself is down or having problems and the delay is the last router in the chain trying to connect to the network.

Traceroute is not limited to just checking the number of routers between you and an Internet site. You can use it to check the number of routers between you and any other computer on a network. As long as you know the IP address of the other computer you can trace the route of the packets between you and the other computer.

In our next instalment we’re going to look at how routers handle denial of service attacks and other problems.

Routers are not perfect. For that matter, nothing is. So if somebody wants to give a router more than it can handle there is a way to do this. We’re going to take a look at what are called denial of service attacks.

A router can only handle so much information coming into it at one time. Every machine has its limits and routers are no exceptions. Well, when the nasty trend of denial of service attacks started early this century, routers were unprepared for them. As they began to understand what was happening they began to compensate for the problem. But there was still a way around it. To understand this we first have to understand what a denial of service attack is.

A denial of service attack is just as it sounds. It is when someone prevents the router or routers from servicing the network. The question is, how do they do this? As previously stated, a router can only handle so much information coming into it to be routed at a time. If too much information starts coming in then the router gets overloaded and can’t forward the information fast enough. Ultimately, what happens is this slows the network down to the point where nobody can access it. In a denial of service attack, which is a deliberate attempt to cause this problem, a person will send an enormous amount of information from one computer to the router at one time. Eventually this will effectively shut down the network. The reason is because of the trickle down effect. Once the main routers start to get overloaded they start to send messages to the rest of the network that the connection is full. These messages start to cascade through the entire network until all the pathways in the network are full and nobody can communicate with any server on the network.

When companies and web sites began to understand what was happening then started to put safeguards in place. They would put checks in the router software to see if a large amount of information was coming from one IP address. If so, then it simply discarded the information and didn’t attempt to pass it on. It seemed that the problem was solved. Not so.

Hackers began to figure out that if they send this enormous amount of information from multiple computers or IP addresses, the routers would have no way of knowing that a denial of service attack was in progress because it would see all this information coming in from multiple locations. Ultimately again, the network would effectively be shut down.

In response to this, manufacturers of routers have placed additional safeguards into their routers to simply check for unusual traffic. The problem with this is that in some cases there is a large amount of traffic that is normal, like in the case of a news site being hit with an overload because a major breaking story hits the airwaves.

It remains to be seen if the hackers or the router manufacturers are going to win this war.

The Answer To The Media Access Control Question
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Over the past few weeks I have received quite a few e-mails about Ethernet cards, both wired and wireless, and more specifically, about Media Access Control (MAC) addresses. I think the main reason I’ve received so many questions about Ethernet cards and MAC addresses is people trying to secure their home wireless networks and their desire to use MAC address filtering. This type of filtering in wireless networks can be configured to allow or deny specific computers to use or attach to the wireless network, based on the MAC address.

My first thought was to write an article just about MAC addresses and wireless Ethernet. After thinking about it I decided to expand on this and go over some specific information about Ethernet cards and communication.

Different Ways Of Finding Your MAC Address And More
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There are several ways of finding your Ethernet and communications protocol information. Many Ethernet card manufacturer’s have proprietary software that can reveal this information but they work differently depending on the manufacturer. So we will use the Windows 2000 and XP “ipconfig” utility since this is available in the majority of Windows Operating Systems.

First, go to “start” -> “run” and type “cmd” without the quotes. Then hit the enter key. At the command line type “ipconfig /all”, again without the quotes. Actually, just typing ipconfig without the /all will work but will only provide you with abbreviated information regarding your network cards. An example of what you might see by typing the “ipconfig /all” command is below with each item commented in green lettering:

Fault Tolerant And Highly Availability Computer Systems
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There are several ways of finding your Ethernet and communications protocol information. Many Ethernet card manufacturer’s have proprietary software that can reveal this information but they work differently depending on the manufacturer. So we will use the Windows 2000 and XP “ipconfig” utility since this is available in the majority of Windows Operating Systems.

First, go to “start” -> “run” and type “cmd” without the quotes. Then hit the enter key. At the command line type “ipconfig /all”, again without the quotes. Actually, just typing ipconfig without the /all will work but will only provide you with abbreviated information regarding your network cards. An example of what you might see by typing the “ipconfig /all” command is below:

OutPut Of The “Ipconfig /All” Command
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Windows IP Configuration

Host Name . . . . . . . . . . . . : Home Computer
This is the name of your computer, typically defined during the windows installation. However, it can be changed after installation.

Primary Dns Suffix . . . . . . . : domain.com
If your computer participates in a network such as a Microsoft Windows domain this item may contain the name of the domain.

Node Type . . . . . . . . . . . . : Unknown
The Node Type may say Unknown, or peer-to-peer, or in some cases “hybrid”. It is a setting that has to do with the Windows Internet Naming Services used in certain types of Windows domain networks.

IP Routing Enabled. . . . . . . . : No
This setting determines if Windows XP or 2000 will function as an IP router. If you have two or more network cards you can setup your system to act as a router, forwarding communications requests from one network to another. Windows 2000 can be configured to do this in a pretty straight forward fashion; Windows XP will need a registry modification.

WINS Proxy Enabled. . . . . . . . : No
WINS Proxy is another setting that is related to the “Node Type” we discussed earlier. It is normally not a required setting in a home or small office network, or newer types of Microsoft Windows domains.

Ethernet adapter Wireless Network Connection 2:
If you have multiple Ethernet (network) cards in your systems, as I do in this laptop, you will have multiple listings. This one happens to be the second Ethernet card, an internal wireless Ethernet card.

Description . . . . . . . . . . . : Broadcom 802.11b/g WLAN
This is the description of the Ethernet card, usually the Name / Manufacturer and type of Ethernet card. In this case, it is a Broadcom wireless Ethernet card built into my laptop.

Physical Address. . . . . . . . . : 00-90-4B-F1-6E-4A
And here we have the MAC address. The MAC address is a 48 bit hexadecimal code and is suppose to be a totally unique address. It is 48 bits because each number or letter in hexadecimal represents 8 bits. Hexadecimal numbers range from 0,1,2,3,4,5,6,7,8,9,A,B,C,D,E, F. There are 6 alpha-numeric codes hence 6*8=48(bits). The first 3 codes identify the manufacturer of the card and the remaining codes are used to create a unique number. Theoretically there should never be a card with same MAC address on a local network. However, there are a few exceptions. There are software tools that allow you to change this code. In fact, this is a step some hackers take to attack other systems on a local network. I say local network because MAC addresses are not routable between network segments. By spoofing this address, you can impersonate another machine on the local network. Traffic that was bound for the intended target can be redirected to the hacker’s machine. This is the address you would also use to populate a MAC address, or physical address table when setting up your wireless access point to support MAC address filtering.

DHCP Enabled. . . . . . . . . . . : Yes
DHCP, or the Dynamic Host Control Protocol, if enabled means your computers IP address is being provided by a DHCP server on you network. The DHCP server could be your wireless access point, cable/dsl router, cable modem, or a server on your network. Also, if a DHCP server is not enabled on your network, your computers Operating System will auto generate a random IP address within a certain predefined range. This means you could network a group of systems together without having to manually assign the IP settings.

IP Address. . . . . . . . . . . . : 192.168.0.117
This parameter provides you with your current IP address. The address listed above is what is called a “private” address. There are certain classes of IP addresses that have been set aside for private use. This means for your internal, local, or private network at home or office. These addresses are not, or should not, be routable on the Internet. The Internet routes what are called “valid” IP addresses. Your cable/dsl router or cable modem has a valid IP address assigned to its “external” network interface. The external interface may be your phone line or cable TV cable.

Subnet Mask . . . . . . . . . . . : 255.255.255.0
The Subnet Mask is a special number, or in some sense, filter, that breaks down your IP address, in this case private IP address, into certain groups. IP addresses and Subnet Masks can be a complicated matter and would take an entire article to go over.

Default Gateway . . . . . . . . . : 192.168.0.254
The default gateway, the IP addresses listed above, is the IP address of the device that will route your request, such as when you try to browse a website, to the Internet. It is a bit more complicated than that though as gateways or routers can route traffic to various different networks, even other private networks. At your home or small office, this gateway most likely is your cable/dsl modem or router.

DHCP Server . . . . . . . . . . . : 192.168.0.49
The DHCP server, remember we talked a little about this above, is the device that assigns your computer an IP address and other information. DHCP servers can assign all kinds of information such as; Default Gateway, Domain Name Servers (DNS), IP address, Subnet Mask, Time Server, and much more.

DNS Servers . . . . . . . . . . . : 192.168.0.49, 64.105.197.58
DNS Servers are internal or external servers that resolve Fully Qualified Domain Names (FQDN), such as www.defendingthenet.com , to IP addresses. This is done because computers don’t actually transmit your requests using the domain name, they use the IP address assigned to the FQDN. For most home or small office users, the primary DNS server is the IP address of your cable/dsl router. Your cable/dsl router than queries an external DNS server on the Internet to perform the actual resolution of the FQDN to IP address. The address 192.168.0.49 is an internal private device on my network whereas the 64.105.197.58 is an external public Internet DNS server and is present just in case my router has trouble performing the DNS resolution tasks.

Lease Obtained. . . . . . . . . . : Sunday, March 19, 2006 6:38:16 PM
This information tells you when your computer received its IP address and other information from a DHCP server. You will notice it says “Lease Obtained”, that is because most DHCP servers only lease the IP address to you from a pool of available address. For instance, your pool may be 192.168.1.1 through 192.168.1.50. So your DHCP server has 50 IP addresses to choose from when assigning your computer its IP address.

Lease Expires . . . . . . . . . . : Wednesday, March 29, 2006 9:38:16 PM
When the IP address, assigned by the DHCP server, lease expires it will attempt to lease you the same or another IP address. This function can typically be changed on the DHCP server. For instance, on some fully functional DHCP servers, you can configure the Lease to never expire, or to expire within 1 day and so on.

Why Are MAC Addresses So Important And How Do They Work
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To jump back to MAC address for just a bit. You may think that IP addresses are the most important thing when it comes to network communication. The reality is, MAC addresses are very important because without them computers would not be able to communicate over Ethernet networks. When a computer wants to speak with another computer on a local network, it will make a broadcast request, or ask a question, of who owns a particular IP address. For instance, your computer may say “Who is 192.168.0.254”. Using the information above, my default gateway is 192.168.0.254 and will answer “I am “00-90-4B-F1-6E-4A” 192.168.0.254”. It sends back its MAC address. That MAC address then goes into what is called a Address Resolution Protocol (ARP) table on your computer. You can see this information by going to the command prompt like you did above and typing “arp –a”. You will get information like the following:

Internet Address Physical Address Type
192.168.0.49 00-12-17-5c-a2-27 dynamic
192.168.0.109 00-12-17-5c-a2-27 dynamic
192.168.0.112 00-0c-76-93-94-b2 dynamic
192.168.0.254 00-0e-2e-2e-15-61 dynamic

How A Hacker Can Use MAC Addresses In An Attack
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You will notice the IP addresses and to the right of them the MAC addresses. Without this information, without the MAC address, you would not be reading this article right now. MAC addresses are not routable like IP addresses. They work on your local or private network. However, devices on the Internet perform the same tasks. Routers and switches maintain a list of their peer devices MAC address just like your computers and devices on your home or office network. I mentioned above that MAC addresses can be changed in order to redirect requests. For instance, if I were on your office network and you had an internal web server that took personal information as input, I could tell your computer to go to my laptop for the web site by broadcasting my MAC address tied to the real web servers IP address. I would do this when you computer asked “Who is the “Real Web Server””. I could setup a fake web server that looks just like the real thing, and start collecting information the real web server would normally collect. You can see how dangerous this can be.

Conclusion
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There are several other easy ways you can find your MAC address but they can be a little confusing if you have more than one internal network card. Most external USB, or PCMCIA wired and wireless Ethernet cards have their MAC address printed on them. In cases where the wired or wireless network card are inside your computer, such as in laptops, the MAC address is sometimes printed on the bottom of the laptop. Even Desktop systems cards that are inserted in PCI slots have the MAC address printed on the Ethernet card.

You may reprint or publish this article free of charge as long as the bylines are included.

Original URL (The Web version of the article)
————

http://www.defendingthenet.com/NewsLetters/FindingYourMACAddressOnWiredAndWirelessNetworkCards.htm

About The Author
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Darren Miller is an Information Security Consultant with over seventeen years experience. He has written many technology & security articles, some of which have been published in nationally circulated magazines & periodicals. If you would like to contact Darren you can e-mail him at Darren.Miller@defendingthenet.com. If you would like to know more about computer security please visit us at http://www.defendingthenet.com.

To the information security professional wireless networking may be thought of as a four letter word to be avoided at all costs. Regardless of the security implication wireless networking can provide cost efficiency, and because of that wireless technologies are here to stay. While many in the profession believe that wireless networks can be easily compromised, this class will show how the appropriate wireless architecture with the proper security controls can make your wireless network as secure as any other remote access point into your network.

In this three day, wireless security workshop, we will examine the cutting edge of wireless technologies. The purpose of the course is to give you a full understanding of what wireless (802.11) networks are, how they work, how people find them and exploit them, and how they can be secured. This hands-on course is based on real world examples, solutions, and deployments. In this course we will actually set up and use wireless networks, determine the tools to uncover wireless networks, and also look at how to defeat the attempts to secure wireless networks.

Course Completion
Upon the completion of our CISM course, students will have:

Constructed a wireless network architecture
Install and configure 802.1x authentication using Microsoft Windows IAS and Server 2000
Install a wireless access point
Distinguish between 802.11x standards
Defeat Wired Equivalent Privacy
Key Take Aways:

An understanding of wireless networks
A CD of common tools and documentation
An ability to search the internet for updates and more information on wireless networks
Detail of Course Content The following topics will be covered:

Wireless History
Radio Frequency (RF) Fundamentals
WLAN Infrastructure
802.11 Network Architecture
802.1X Authentication
Extensible Authentication Protocol (EAP)/(LEAP)/(PEAP)
Detection Platforms
WLAN Discovery Tools
Kismet
Wireless Sniffers
Conventional Detection
Antennas
Exploiting WLANs
Securing WLANs
Other Wireless Options
Legal Issues including GLBA and ISO-17799
Future
Resources

http://www.acquisitiondata.com/wireless_security.asp

There has been a lot of talk recently about Google Talk and how there are serious privacy concerns with the new application.

The biggest concern seems to come with the ability to search and share multiple computers with one account. In other words, you could use a single desktop search account to search, index and allow you to share files between your desktop and laptop for example.

But are these concerns grounded in truth? Is there really a privacy issue here?

I downloaded and installed the new Desktop Search beta the other day. It has some interesting new features such as the ability to remove panels from the sidebar and dock them anywhere you like on your desktop.

And there are several more panels available to let you do anything from manage what is indexed, to passing time by playing games.

One of the coolest features is its ability to reach beyond the desktop it is on to do a variety of things. Now, I can play tic tac toe with co-workers, or even friends around the world.

But the biggest, and most troubling update to some is the ability to remotely index files, as well as share them using Google servers to temporarily store the items.

By turning this feature on you give Google the right to store your files for up to 30 days. Therein lies the crux of the issue – there seems to be no way around this 30 day requirement.

All I have to say is ‘so what?’

So what if you have to give Google this ability? Google will encrypt the data so that no one else can access it. And even if there is some sort of DOJ subpoena requiring access to these files I don’t think it would stand up in court.

This is because Google has set up a network whereby all your Google activities are tied to one Google account. Your personalized home page, gmail, google analytics, adwords and adsense accounts all share the same Google account. Therefore, it would be difficult for anyone to get a subpoena to review information pertaining to only part of that account.

Legalities aside, if you are that concerned about the privacy being surrendered to Google in order to use this system then don’t sign up for it.

You can still download and use the new Desktop Search with most of its new features, but you don’t have to use the file sharing.

But what if you want to share files between computers?

Well, do what I did – go to your favorite electronics store and buy a flash drive. I just bought a USB flash drive with over 2 gigs of storage for under $100. Now I can easily transfer anything between any computer with no worry of some government agency wanting to know what’s on it.

As I said, I do have the new Google Desktop installed, and I did look at the settings for the search and file sharing, but I didn’t turn them on. I have no need to be able to search my home computer from work and vice versa, nor do I need to share files between the two computers.

And if I did, I’ll simply use the FTP site I have set up on a computer at home or the aforementioned flash drive.

Really, when it comes to all the other ways that Google captures your personal data, from search history to Gmail, should we be all that concerned that some files may end up being stored on a Google server somewhere?

I think we should have other concerns. For example, I think we should be concerned about what Google already knows about us via those services I mentioned earlier.

I think business owners should be concerned that such a service would allow employees to easily steal and transfer data to and from work.

I think if you are that scared of the US government infringing on your privacy then you shouldn’t have a Google account, nor Google Desktop Search nor a Gmail account. In fact I don’t think you should have any Internet accounts because quite honestly everyone is a target for the DOJ. Further, I can almost guarantee you that your local ISP will fold and hand over the data much easier than Google will.

So before you start complaining about how Google could infringe your privacy, remember that YOU have the ability to stop it from happening. It’s just a matter of choosing to do so.

There are more and more individuals opting to work from home than ever before. The advantages to this are many including avoiding the morning and evening rush hours, being able to spend time with your kids and significant other, and doing everything on your own time. Though the pitfalls are many, the one that I will be focusing on in this article is that of setting up a secure wireless network for your home based business. Right now somewhere out there, there is someone with a receiver waiting to pick up on an unsuspecting person’s wireless local area network. Their hope is to garner some sensitive information that may lead to identity theft, and stolen proprietary business information.

Most businesses owners are not technically inclined, though they may be power users, in general security settings is not one of the first things they want to mess around with in their day to day operations. This makes most wireless LANs a great target for information predators.

Here are some general guidelines to follow in setting up your wireless network. Though it may vary from vendor to vendor, the gist is more or less the same:

1. Setup the wireless access/router point via a wired client.
2. Always change the factory setting password to something difficult for someone to guess.
3. Enable 128-bit Wired Equivalency Privacy (WEP) encryption on both your access point and network card. From time to time change the WEP key entries. If your hardware does not support a minimal of 128 bit WEP encryption, then it may be time to replace this dinosaur. WEP is only a minimal security precaution, which is better than none at all.
4. Alter the factory default SSID on the access/router point to a convoluted difficult to guess string. Initiate your computer to connect to this configured SSID by default.
5. Setup your access point not to broadcast the SSID if available.
6. Block off anonymous internet requests and pings.
7. P2P Connections should be disabled.
8. Enable MAC filtering.
9. Enable firewall on the network router/access point with demilitarized zone function disabled. Enable client firewalls for each computer in the network.
10. Update router and access point firmware as updates become available.
11. Make sure the physical router is hidden so that a random person can’t reset the settings.
12. Position the physical router near the middle of the establishment as opposed to near windows to prevent others outside from receiving the signals.

These and other settings will collectively help prevent any unwanted intrusions on your private data.