Get Private Ip Of Distant Ip Camera

30.08.2019

2.Use a Common Spy Digicam-a common hidden camera with 25 to select from. A DVR is required to report the pictures however is usually a plus. DVR's have the aptitude of 'distant web surveillance' which suggests you possibly can view from anyplace there may be an web connection. After all there are different makes use of for a covert hidden cameras.
With network (IP) cameras, you can access live views of your camera using web browsers. Vitamin D Video does not prevent you from using this method of viewing your cameras when it is running. That said, it is possible to configure your network so that you can use Vitamin D Video on a computer at a remote location. (Note: the following.

Get Private Ip Of Distant Ip Camera Video
Get Private Ip Of Distant Ip Camera Service

IP cameras are Digital and connect via Cat5 (Networking) Cable. IP cameras are digital cameras. Cat5 Cable, as shown in the image to the left, is the cable used in creating computer networks. With an IP camera system, this one wire caries both your video data and your power.

How to connect an IP camera to your PC or to the computer monitor? If you’ve got your security video IP cameras home, and you don’t plan for an NVR, you may get problems on how to directly connect an IP camera to PC (without routers, without internet, without DVR or without its receiver). This doesn’t mean you are an idiot, but you are just not a technical guy or you just don’t have experience in this kind of stuff.

It’s wise to hook up your security IP cameras to computer (or computer monitor) for 24/7 monitoring and recording. You can, with or without Internet, connect your indoor or outdoor surveillance cameras to PC or to Mac with the top 5 solutions.

Pleased be noted: Install your security cameras in the right positions firstly. You can refer to How to Install Home Security Cameras Successfully.

5 Solutions to Connect Your Security IP CCTV Camera to PC/Mac

And I’ve covered third party software to connect your IP Camera to computer in the last part.

Those methods will guide you to connect a wireless or PoE IP camera to PC (on Windows 10, Windows 8.1, Windows 8, Windows 7, Windows XP and Windows Vista), and to a Mac (on Mac OS X 10.13, 10.12, 10.11, 10.10, 10.9, etc.).

Important Note: The methods recommended below may NOT apply for the battery powered security cameras, which require initial setup on your phones.

WAIT! Check out these Special Deals before you leave:

Right now, you can get EXCLUSIVE & BIG discounts on a wide range of Reolink security cameras & systems, wire-free & plugged-in, indoors & outdoors.

Here is a simple infographic illustrating the basic steps to connect a security camera (system) to your PC/Mac. You may continue reading for more important notes to help you smoothly set all the things up.

Method 1. Connect a WiFi or PoE Camera Directly to PC/Mac (without Internet)

The steps below detail how to connect your security IP camera directly to PC/Mac, without an NVR or DVR, without a router network, without WiFi, and without any fees or complicated configuration.

Alternatively, you can try the top 2 solutions for cameras without WiFi I have mentioned.

Requirements:

Your WiFi or PoE camera
The camera’s power adapter
Your computer (desktop or laptop)
A network cable

And that’s all.

Here is how:

Step 1. Get your security camera charged.

Use the power adapter to get the camera plugged-in and charged. Normally, when you buy a WiFi IP camera, it comes with a power adapter. For a PoE camera, ask the supplier and buy one that’s workable for the camera.

Step 2. Use the network cable to connect to the camera and the computer.

Normally there would be a 2-in-1 or 3-in-1 cable attached from the camera. Find the network connector from that cable and use the network cable to connect to it. Then connect the other end of the network cable to the computer.

If your computer has network already, disable it – make sure your computer is offline.

Step 3. Scan and find out the security camera’s IP address on the computer.

Now the security camera is connecting to your computer basically and physically. But you still can’t view the camera on the computer.

What you need to do now is to scan and find out the camera’s IP address. There should be surveillance software from the same supplier with the camera.

Take our test as an example. We have Reolink Client on the computer. Launch it and it will automatically scan all the cameras in the same local LAN and show the default IP address (every camera has a default and unique IP address when it leaves the factory). Easy peasy!

Step 4. Change the computer’s IP address to the same network prefix of the IP camera.

So in Step 3, you get your security camera’s default IP address. In our test, the default IP address of the camera we use is 192.168.177.100, and now you need to change your computer’s IP address to 192.168.177.x, where x identifies the node/host and is the number between 2 and 254. So let’s say the computer’s IP address is 192.168.177.12.

IP address 101: An IP address consists of two parts – one belongs to the network address and one belongs to the node address. All nodes on a given network share the same network prefix but have a unique host number.

Now to change the computer’s IP address (we take Windows 10 as an example):

1) Press the Windows + R keyboard shortcut to bring out the Run box.

2) Enter “ncpa.cpl” and open the “Network Connections” window.

3) Right-click your computer’ network adapter and select “Properties”.

4) Select your computer’s Internet Protocol Version and click “Properties”.

5) Select “Use the following IP address” and change the IP address into 192.168.177.12.

And done. Now your IP camera is connecting directly and communicating with your PC, because they are now in the same little LAN. You can watch your IP camera with Reolink Client on your computer.

Here’s the video footage shared by one of our customers (captured by Reolink RLC-410).

Important: Since there is no router network, the IP camera would not transmit data or send alarms to your phone. Still, you can record and save all the footage onto your computer.

If you’re gonna use your IP camera with the computer all the time like this (without router network), you’d better change the default status of your IP camera’s IP address to the static to keep it the same all the time, because each time you reboot the IP camera, its IP address will be changed and you will need to do all the steps above again. To keep the IP camera’s IP address the same all the time, head to “Device Settings” and “Network General” on the Client (Reolink Client in our test), and choose “Static” for “Network Access”. And done.

Method 2. Connect a Wireless/WiFi Camera to Computer via Router (with Internet)

If you do have WiFi network and need to remotely see the IP camera when you’re not there, you can connect your wireless or WiFi camera to computer wirelessly via your router.

Requirements:

Your WiFi camera
The camera’s power adapter
Your computer (desktop or laptop)
A network cable
A router

Here is how:

Step 1. Get your WiFi security camera charged.

Use the power adapter to get the camera plugged-in and charged.

Step 2. Use the network cable to connect to the camera and the router.

A WiF camera needs to connect to the router with a network cable for initial setup, because the new camera itself wouldn’t recognize and auto-pick up a network that it never uses. Only after the correct WiFi settings can you disconnect the cable from the camera and the router.

And yeah again, normally there would be a 2-in-1 or 3-in-1 cable attached from the WiFi camera. Find the network connector from that cable and use the network cable to connect to it. Then connect the other end of the network cable to the router.

Step 3. Watch the IP camera on PC/Mac

On the computer, launch the surveillance software to add the camera and watch live view directly.

In our test, we open Reolink Client. Since the computer and the camera are in the same network (using the same router network), Reolink Client automatically searches and displays the camera directly. Click “Start” and you can view the camera on PC. And you can set up the configurations for all the functions you want the camera to have.

Here’s the video footage shared by one of our customers.

Reolink C1 Pro

Smart Home Dual-Band WiFi PT Security Camera

1440p Super HD; Pan & Tilt; 2-Way Audio; Excellent Night Vision; Smartphone Remote Access; See What’s Happening in Your House.

Step 4. Set up WiFi settings and remove the network cable.

Do remember to make the WiFi settings for the camera. On the software, navigate to “Device Settings” and “Network”. Choose the WiFi network and enter the password, and done. Cameras from different brand would have different WiFi settings. Please refer to the guides you get from your supplier.

After that, remove the network cable, and then the security IP CCTV camera connects to computer wirelessly.

Important: If you need to see the IP camera from another computer which is not in the same network, you need to input the camera’s UID into the software to remotely access the camera.

Method 3. Connect a PoE (Wired) IP Camera to Computer without PoE Injector/Switch

Connecting a PoE wired IP camera to computer via router is similar to that of a WiFi camera, and even much easier – you don’t need to use a power adapter, set up the WiFi and remove the network cable.

Requirements:

Your PoE camera
Your computer (desktop or laptop)
A network cable
A router with PoE feature

Here is how:

Step 1. Use the network cable to connect to the camera and the router.

PoE (Power over Ethernet) means you can just use a single network cable for both video and power transmission. So just connect the camera to the router via the network cable, and the camera will get power supply and network access.

Please make sure your router has the PoE feature. If not, try the next method.

Step 2. Watch the IP camera on computer.

On the computer, launch the surveillance software to add the camera and watch live view directly.

In our test, we open Reolink Client. Since the computer and the camera are in the same network, Reolink Client automatically searches and displays the camera directly. Click “Start” and you can view the camera on PC. And you can set up the configurations for all the functions you want the camera to have.

Here’s the video footage shared by one of our customers.

Reolink RLC-410

PoE Bullet IP Security Camera with Audio

5MP/4MP Super HD; Outdoor/Indoor Protection; 100ft Infrared Night Vision; Audio Recording; Mobile Remote Access & Control.

Important: If you need to see the IP camera from another computer which is not in the same network, you need to input the camera’s UID into the software to remotely access the camera.

Method 4. Connect a PoE (Wired) IP Camera to Computer with PoE Injector/Switch

If your router does not support PoE, you need a PoE injector or PoE switch to help connect your IP camera to PC.

Requirements:

Your PoE camera
The camera’s power adapter
Your computer (desktop or laptop)
A network cable
A router
A PoE injector or PoE switch

Here is how:

Since the steps on how to connect a PoE IP camera to PC via PoE Injector/switch are quite the same to that of connecting without a PoE Injector/switch, we’d like to make it more simpler to understand here.

Connect all the devices as the picture showed below:

Important: Once you connect the PoE IP camera to the PoE injector or switch which is connected to a router via Ethernet cables, you’ve successfully connect the camera to the network. For a wireless IP camera, you need to use a network cable to connect it to the router if you haven’t set up the WiFi network configuration. And then the wireless IP camera is in the network. You can set up the WiFi configuration later to make the wireless IP camera connect wirelessly.

Make sure your wireless IP camera is connected to a power supply.

Then on Reolink Client, add the camera and watch live view directly.

If you need to see the IP camera from another computer which is not in the same network, you need to input the camera’s UID into the software to remotely access the camera.

Method 5. Connect a CCTV Camera System to PC/Mac (with or without Network)

Reolink security camera systems, like the PoE kit RLK8-410B4, have their own proprietary networks, and can work with and without your router network.

Here’s how:

How to connect a CCTV security camera system to computer without router network

Step 1. Connect all the cameras to the NVR.

When you receive the new IP camera system you bought, connect all the devices you got – connect the NVR to your computer’s monitor and the mouse, use the power adapters to charge the NVR and cameras, etc. For a WiFi system, once the WiFi NVR and the WiFi cameras are charged, they connected to each other automatically and would start communicate. For a PoE system, connect the PoE cameras to the NVR via the network cables provided.

Step 2. Start watching the IP cameras.

The startup and setup wizard will pop up to guide you to watch your cameras and do other configurations.

Now you can see all the IP cameras on your monitor and start recording.

Here’s the video footage shared by one of our customers.

How to connect a CCTV security camera system to computer with router network

Step 1. Do the step 1 showed above.

Step 2. Connect the NVR to your router via the network cable provided.

Step 3. Start watching the IP cameras.

The startup and setup wizard will pop up to guide you to watch your cameras and do other configurations.

If you need to see the IP cameras from another computer which is not in the same network, you need to input the NVR’s UID into the software to remotely access the cameras.

Third Party Software to Connect IP Camera to PC/Mac

You can also opt for third-party software to connect and set up security camera on computer. Make sure the software can handle all the cameras on the network and support all the features for the cameras. Normally, the third-party software has several versions. And if you want to use full features of the camera, you need to pay for a premium version.

If your security IP camera is not working properly as expected or if you get any issues, you can try the top 10 solutions to fix IP camera not working.

For any questions, please don’t hesitate to leave it in your comment. I will reply as soon as possible.

Every device connected to a network—computer, tablet, camera, whatever—needs a unique identifier so that other devices know how to reach it. In the world of TCP/IP networking, that identifier is the Internet Protocol (IP) address.

If you’ve worked with computers for any amount of time, you’ve likely been exposed to IP addresses—those numerical sequences that look something like 192.168.0.15. Most of the time, we don’t have to deal with them directly, since our devices and networks take care of that stuff behind the scenes. When we do have to deal with them, we often just follow instructions about what numbers to put where. But, if you’ve ever wanted to dive a little deeper into what those numbers mean, this article is for you.

RELATED:8 Common Network Utilities Explained

Why should you care? Well, understanding how IP addresses work is vital if you ever want to troubleshoot why your network isn’t working right, or why a particular device isn’t connecting the way you’d expect it to. And, if you ever need to set up something a little more advanced—like hosting a game server or media server to which friends from the internet can connect—you’ll need to know something about IP addressing. Plus, it’s kind of fascinating.

Note: We’re going to be covering the basics of IP addressing in this article, the kind of stuff that people who use IP addresses, but never really thought much about them, might want to know. We’re not going to be covering some of the more advanced, or professional, level stuff, like IP classes, classless routing, and custom subnetting…but we will point to some sources for further reading as we go along.

What Is an IP Address?

An IP address uniquely identifies a device on a network. You’ve seen these addresses before; they look something like 192.168.1.34.

An IP address is always a set of four numbers like that. Each number can range from 0 to 255. So, the full IP addressing range goes from 0.0.0.0 to 255.255.255.255.

The reason each number can only reach up to 255 is that each of the numbers is really an eight digit binary number (sometimes called an octet). In an octet, the number zero would be 00000000, while the number 255 would be 11111111, the maximum number the octet can reach. That IP address we mentioned before (192.168.1.34) in binary would look like this: 11000000.10101000.00000001.00100010.

Computers work with the binary format, but we humans find it much easier to work with the decimal format. Still, knowing that the addresses are actually binary numbers will help us understand why some things surrounding IP addresses work the way they do.

Don’t worry, though! We’re not going to be throwing a lot of binary or math at you in this article, so just bear with us a bit longer.

The Two Parts of An IP Address

A device’s IP address actually consists of two separate parts:

Network ID: The network ID is a part of the IP address starting from the left that identifies the specific network on which the device is located. On a typical home network, where a device has the IP address 192.168.1.34, the 192.168.1 part of the address will be the network ID. It’s custom to fill in the missing final part with a zero, so we might say that the network ID of the device is 192.168.1.0.
Host ID: The host ID is the part of the IP address not taken up by the network ID. It identifies a specific device (in the TCP/IP world, we call devices “hosts”) on that network. Continuing our example of the IP address 192.168.1.34, the host ID would be 34—the host’s unique ID on the 192.168.1.0 network.

On your home network, then, you might see several devices with IP address like 192.168.1.1, 192.168.1.2, 192.168.1 30, and 192.168.1.34. All of these are unique devices (with host IDs 1, 2, 30, and 34 in this case) on the same network (with the network ID 192.168.1.0).

To picture all this a little better, let’s turn to an analogy. It’s pretty similar to how street addresses work within a city. Take an address like 2013 Paradise Street. The street name is like the network ID, and the house number is like the host ID. Within a city, no two streets will be named the same, just like no two network IDs on the same network will be named the same. On a particular street, every house number is unique, just like all host iDs within a particular network ID are unique.

The Subnet Mask

So, how does your device determine which part of the IP address is the network ID and which part the host ID? For that, they use a second number that you’ll always see in association with an IP address. That number is called the subnet mask.

On most simple networks (like the ones in homes or small businesses), you’ll see subnet masks like 255.255.255.0, where all four numbers are either 255 or 0. The position of the changes from 255 to 0 indicate the division between the network and host ID. The 255s “mask out” the network ID from the equation.

Note: The basic subnet masks we’re describing here are known as default subnet masks. Things get more complicated than this on bigger networks. People often use custom subnet masks (where the position of the break between zeros and ones shifts within an octet) to create multiple subnets on the same network. That’s a little beyond the scope of this article, but if you’re interested, Cisco has a pretty good guide on subnetting.

The Default Gateway Address

RELATED:Understanding Routers, Switches, and Network Hardware

In addition to the IP address itself and the associated subnet mask, you’ll also see a default gateway address listed along with IP addressing information. Depending on the platform you’re using, this address might be called something different. It’s sometimes called the “router,” “router address,” default route,” or just “gateway.” These are all the same thing. It’s the default IP address to which a device sends network data when that data is intended to go to a different network (one with a different network ID) than the one the device is on.

The simplest example of this is found in a typical home network.

If you have a home network with multiple devices, you likely have a router that’s connected to the internet through a modem. That router might be a separate device, or it might be part of a modem/router combo unit supplied by your internet provider. The router sits between the computers and devices on your network and the more public-facing devices on the internet, passing (or routing) traffic back and forth.

Say you fire up your browser and head to www.howtogeek.com. Your computer sends a request to our site’s IP address. Since our servers are on the internet rather than on your home network, that traffic is sent from your PC to your router (the gateway), and your router forwards the request on to our server. The server sends the right information back to your router, which then routes the information back to the device that requested it, and you see our site pop up in your browser.

Typically, routers are configured by default to have their private IP address (their address on the local network) as the first host ID. So, for example, on a home network that uses 192.168.1.0 for a network ID, the router is usually going to be 192.168.1.1. Of course, like most things, you can configure that to be something different if you want.

DNS Servers

There’s one final piece of information you’ll see assigned alongside a device’s IP address, subnet mask, and default gateway address: the addresses of one or two default Domain Name System (DNS) servers. We humans work much better with names than numerical addresses. Typing www.howtogeek.com into your browser’s address bar is much easier than remembering and typing our site’s IP address.

DNS works kind of like a phone book, looking up human-readable things like website names, and converting those to IP addresses. DNS does this by storing all that information on a system of linked DNS servers across the internet. Your devices need to know the addresses of DNS servers to which to send their queries.

RELATED:What Is DNS, and Should I Use Another DNS Server?

On a typical small or home network, the DNS server IP addresses are often the same as the default gateway address. Devices send their DNS queries to your router, which then forwards the requests on to whatever DNS servers the router is configured to use. By default, these are usually whatever DNS servers your ISP provides, but you can change those to use different DNS servers if you want. Sometimes, you might have better success using DNS servers provided by third parties, like Google or OpenDNS.

What’s the Difference Between IPv4 and IPv6?

You also may have noticed while browsing through settings a different type of IP address, called an IPv6 address. The types of IP addresses we’ve talked about so far are addresses used by IP version 4 (IPv4)—a protocol developed in the late 70s. They use the 32 binary bits we talked about (in four octets) to provide a total of 4.29 billion possible unique addresses. While that sounds like a lot, all the publicly available addresses were long ago assigned to businesses. Many of them are unused, but they are assigned and unavailable for general use.

In the mid-90s, worried about the potential shortage of IP addresses, the internet Engineering Task Force (IETF) designed IPv6. IPv6 uses a 128-bit address instead of the 32-bit address of IPv4, so the total number of unique addresses is measured in the undecillions—a number big enough that it’s unlikely to ever run out.

Unlike the dotted decimal notation used in IPv4, IPv6 addresses are expressed as eight number groups, divided by colons. Each group has four hexadecimal digits that represents 16 binary digits (so, it’s referred to as a hextet). A typical IPv6 address might look something like this:

The thing is, the shortage of IPv4 addresses that caused all the concern ended up being mitigated to a large extent by the increased use of private IP addresses behind routers. More and more people created their own private networks, using those private IP addresses that aren’t exposed publicly.

So, even though IPv6 is still a major player and that transition will still happen, it never happened as fully as predicted—at least not yet. If you’re interested in learning more, check out this history and timeline of IPv6.

How Does a Device Get Its IP Address?

Now that you know the basics of how IP addresses work, let’s talk about how devices get their IP addresses in the first place. There are really two types of IP assignments: dynamic and static.

RELATED:How to Find Any Device’s IP Address, MAC Address, and Other Network Connection Details

A dynamic IP address is assigned automatically when a device connects to a network. The vast majority of networks today (including your home network) use something called Dynamic Host Configuration Protocol (DHCP) to make this happen. DHCP is built into your router. When a device connects to the network, it sends out a broadcast message requesting an IP address. DHCP intercepts this message, and then assigns an IP address to that device from a pool of available IP addresses.

There are certain private IP address ranges routers will use for this purpose. Which is used depends on who made your router, or how you have set things up yourself. Those private IP ranges include:

10.0.0.0 – 10.255.255.255: If you’re a Comcast/Xfinity customer, the router provided by your ISP assigns addresses in this range. Some other ISPs also use these addresses on their routers, as does Apple on their AirPort routers.
192.168.0.0 – 192.168.255.255: Most commercial routers are set up to assign IP addresses in this range. For example, most Linksys routers use the 192.168.1.0 network, while D-Link and Netgear both use the 198.168.0.0 range
172.16.0.0 – 172.16.255.255: This range is rarely used by any commercial vendors by default.
169.254.0.0 – 169.254.255.255: This is a special range used by a protocol named Automatic Private IP Addressing. If your computer (or other device) is set up to retrieve its IP address automatically, but cannot find a DHCP server, it assigns itself an address in this range. If you see one of these addresses, it tells you that your device could not reach the DHCP server when it came time to get an IP address, and you may have a networking issue or trouble with your router.

The thing about dynamic addresses is that they can sometimes change. Sap ecc 6.0 software free download full version. DHCP servers lease IP addresses to devices, and when those leases are up, the devices must renew the lease. Sometimes, devices will get a different IP address from the pool of addresses the server can assign.

Most of the time, this is not a big deal, and everything will “just work”. Occasionally, however, you might want to give a device an IP address that does not change. For example, maybe you have a device that you need to access manually, and you find it easier to remember an IP address than a name. Or maybe you have certain apps that can only connect to network devices using their IP address.