Have you ever seen a small pixel in your Pulsar Thermal optic’s screen that you wish wouldn’t stick out like a sore thumb? If you fire your gun a lot these pixels-that-need-repair occasionally occur, but fear not, Pulsar has anticipated this and provided a way to resolve it. I had one on my screen for a few months before I investigated it and the good news is that it’s simple to correct!
A “defective pixel” is a pixel within your viewfinder or screen that is “degraded”, sticks out, and won’t go away even after your scope calibrates. I’ve owned a Pulsar Trail XP-50 for over 2 years and in this time, I’ve only had 2 defective pixels. Though, when it does happen, over time it will bother you enough to want to know how to fix it.
Here’s a screenshot of one of my defective pixels while in “White-Hot” mode
In this screenshot, the defective pixel may not seem like a big deal, but when you’re hunting and looking through the viewfinder it can become distracting to your eye over time, especially if it’s near the crosshairs. While hunting with the defective pixel shown in the screenshot above there were several times I panned the horizon and mistook the small white dot for being an animal that was a great distance out.
The first thing to do if you notice a defective pixel or something that doesn’t look correct in your viewfinder is to calibrate the optic. If you haven’t changed any settings on your scope then your Pulsar thermal optic will automatically calibrate every so often to ensure what you’re seeing is accurate, clear, and crisp. Calibrating the optic makes the clicking sound that you may have grown accustomed to hearing by now if you own a thermal optic.
These calibrations can be forced by pressing the power button in the Trail models. If my screen ever gets hazy or I notice something not sharp in the viewfinder I simply calibrate the scope. With all that said, the first thing to do if you notice a defective pixel is to force a calibration because generally that will fix it.
If calibrating the optic doesn’t resolve the issue then repair the defective pixel by going to one of the last menu options in the menu system, the “Defective Pixel Repair” option.
Once you choose this option it’s simple. The system presents you with a pixel selector and provides you with the ability to move the X & Y coordinates. This task feels very similar to sighting in the scope.
Just move the X & Y coordinates until you are right on top of the defective pixel. As you update the values for the X & Y coordinates the pixel selector will move across the screen as shown below. The pixel selector surrounded by the box is like the Picture-In-Picture feature and is a magnified (zoomed in) version of the pixel selector.
The goal is to move the defective pixel selector on top of (or as close as possible to being on top of) the defective pixel.
Once you have the defective pixel lined up you then need to hit the record button, yes, the record button. The system will repair the pixel and respond with an “OK” message.
Note: You can also use the remote control to do this as shown in this video by Michael Bennett
And that’s all there is to it! Note that depending on your unique situation, it may take repairing multiple pixels to get the screen back to the desired state. In one of the previous defective pixel scenarios, I had to repair 2 pixels before it was back clear, and the pixel was no longer bothering me.
I also made a quick video walking through this process. You can see the video below:
I hope you found this content helpful. If so, leave me a comment below.
A thermal monocular offers several benefits, some of which you may not initially consider. After having used a thermal monocular
for over 2 years, I’d like to share some of the ways I use it to get an edge in the field and some ways you may
not have thought about using a thermal monocular before.
A thermal monocular offers several benefits some of which may not initially obvious. After having used a thermal monocular
for over 2 years, I’d like to share some of the ways I use this recent technology to get an edge in the field and
beyond and some ways you may not have thought about using a thermal monocular before.
As a hunter, I am always looking for ways to gain an edge. It didn’t take me long to appreciate the benefits gained
from using a thermal monocular. I primarily hunt deer, hogs, coyotes, and turkey. Finding ways to use a thermal monocular
to gain an edge hunting each of these species was easy. Let’s get to it…
No More Spooking Deer on My Way In or Out of the Deerstand
One of the first benefits I realized a thermal monocular brought was that it provides me the ability to enter and exit
the woods without spooking any deer. That is, when I start out to my stand I scan with my monocular. When approaching
the stand if I see any deer on the corn pile I simply stop and lean on a tree or sit on the ground until they leave.
Without this ability to see into the dark I wouldn’t have a clue that deer were anywhere around, and I’d
be climbing in my stand only to hear the deer blowing and running off – that doesn’t happen to me anymore.
Likewise, when the sun sets, I always scan before exiting the stand. There have been plenty nights where I sat in the
dark for 10 or 15 minutes until a deer exited my area. Deer are no longer aware of my location simply because I was making
noise in the dark and didn’t know they were close by. This is solely because of the thermal monocular giving me
vision where I previously didn’t have it.
Track Deer More Efficiently
The thermal monocular also comes in very handy when trailing or tracking a deer. If you’ve ever shot a deer right
at dark, you know that it can sometimes be challenging to track them. If you made a good shot, then the thermal monocular
will likely save you some time. Yes, you should get on the blood trail as you normally would, but also use the thermal
monocular to scan the general direction the deer ran in and you may be surprised at how much more efficient your tracking
becomes. I’ve got friends who call me to come help them track deer simply because they know I’ve got a thermal
Locate Turkeys on the Roost More Easily
Turkey hunting is also one of my favorite things to do. There’s nothing better than watching a big gobbler strut
and there’s nothing more depressing than not being able to locate any birds. If you know the general area where
turkeys are roosting, then a thermal monocular may provide you with an edge in this scenario as well. Now days I always
take the thermal monocular with me when we go in before dark. I scan the tree tops to see if I can see any turkeys roosting.
Admittedly, turkeys are a little more difficult to pinpoint because their heads are usually the only part that shows
a sharply contrasting heat signature and during the spring the trees provide them with more cover. Though, the thermal monocular still
provides the opportunity to spot them. This again gives me an edge and as you would imagine we take it and use it as
much as possible. Locating birds is half the battle and a thermal monocular can help you locate them more easily.
Our Primary Use – Scanning for Hogs & Coyotes
The most obvious time when we use the thermal monocular is for coyote and hog hunting at night. We set our guns on tripods
and use the monocular for scanning and locating. As soon as we locate then the game we get into the scopes. If you don’t
have a scanning monocular you will quickly learn that it saves your back big time because you don’t have to constantly
be hunched over scanning in circles in the scope. Also, the monocular is safer to scan with. That is, if we are spinning
circles with our guns, we are pointing the guns in all directions which inevitably become close to other hunters and that’s
not a good thing. Since the monocular is obviously not attached to a gun it’s the safest route for detecting game.
Want to see footage from thermal monoculars & scopes?
Check out our thermal playlist on YouTube
Easily Locate Rabbits
For you rabbit hunters, I know it’s all about the dogs but if you want to easily see rabbits that are hiding in
the edge of briar patches there’s no better way than with a thermal monocular. We constantly see rabbits in the
edge of brush, in straw, and alongside fields while hog and coyote hunting. Want to get your dogs pointed in the right
direction… try a thermal monocular.
Something I noticed while looking at all kinds of things with my thermal monocular is that I can use it for surveillance
if needed. If a group of cars is parked around a house, I can easily tell which cars have been there the longest (they
are cooler) and which ones have just arrived (they are hotter). If you ever have out-of-place individuals lurking in
the shadows they are easily picked out with a thermal monocular. There’s not much hide and seek when it comes to
thermal technologies. The only area this isn’t 100% effective is in scenarios where there are windows. Thermal
detection doesn’t work through glass, other than that it’s awesome to use to see into the night and get whatever
info or recon you need.
One of my friends is a home inspector. Sometimes he’s looking for locations where hot or cool air may be escaping
a house. A thermal monocular is a great tool for this type of scenario.
Imagine an HVAC system that wasn’t installed correctly or if a pipe was leaking. A thermal monocular is a great tool
in these scenarios. Also, one can easily spot the hottest or coldest parts of any machine that could be “running
hot”. Wherever temperature matters a thermal monocular could potentially be useful.
Wondering which device you should use is a common question. After all, these devices are not cheap and as such these are
decisions that shouldn’t be made lightly. Since the purpose of this blog is to provide insight into ways one can
use a thermal monocular, I’m not going to compare all the options out there. A simple Google search will show you
the brand leaders and products on the market.
I’ll simply say that I am on the Pulsar Pro-Staff and I use
Pulsar products. I’m a fan of the
Pulsar Helion XP-50 and it’s what we use on all our hunts. Pulsar recently announced the “Axion” line of monoculars as well. I encourage you to do research and go with the device and manufacturer that
is the best tool for your job.
Picture referenced from GunTrader.uk
We’ve hunted in the WeHuntSC.com Predator Challenge for 7 years. We’ve hunted hard and have yielded minimal results other than being frustrated. Lately we’ve heard a lot of people telling us how effective they have been with hunting coyotes with night vision. This year we aimed to reduce frustration and get more coyotes on the ground by upgrading to a night vision setup. This journey would lead to many lessons learned, which I’ll share in the below blog entry.
After doing some research it seems most hunters are using AR’s for their choice of weapon when coyote hunting. The AR model frees hunters from having to manually chamber another shell as this is done by the gun. This allows more rapid fire at targets which is beneficial when hoping to shoot multiple coyotes … if you can get multiple to come in.
I’d recently heard about Anderson Arms having a unique AR setup. Anderson uses a nanotechnology called RF-85 on their guns that makes it to where you never have to oil the gun. It’s pretty sweet technology. I went with the Anderson Arms AM15 optic ready. If you haven’t checked it out, head on over to https://www.andersonrifles.com.
With the gun selection done it was time to move on to the scope. This meant I had to learn about night vision. It seems in the night vision world there are 2 routes one can go – infrared or thermal. I’m sure you can get into religious debates about the advantages & disadvantages of each, but in the end I chose thermal. Once I decided on thermal I needed to pick out a brand. I had previously purchased a FLIR monocular for spotting scope which I use for tracking wounded animals and ensuring I’m not spooking deer on my way in or out of the woods. It’s very handy, but not very clear. I wanted to try a different brand to see if it was any different. PULSAR seemed to be a popular brand based on the research I had done. I ended up going with the PULSAR Apex XD38.
I worked with the crew at Reel Determined Outdoors to get this rig set up. If you haven’t checked out Reel Determined or the team up there you should give them a shout.
One initial note about night-vision gear. I was surprised at how expensive these technologies are so if you’re looking for a cheap night vision solution get ready to be surprised. However, I can tell you that once you use a night vision setup for coyotes you will never go back.
Sighting In a Thermal Scope
With the gun in hand and scope mounted on it we were ready to venture into the world of thermal night vision. Before we got to shoot at any coyotes however, we needed to sight it in. This is where we really started learning some stuff.
When you take a thermal scope out and look at a target you don’t see the lines on the target. This is because the scope is responding to heat signatures and, as you would imagine, the lines on the target aren’t putting out any heat. Yes, this would seem obvious, but to some rookies we didn’t think ahead about this too much. On our first attempts at sighting this thing in we ended up cutting the center of the target out and putting up some tin foil as the tin foil maintained different temperatures and we could *vaguely see the contrast in the scope. It was all we needed to get excited and get started though.
Once inside the scope I realized that we’d have to learn the menu systems inside of the PULSAR scope. At first sight it was a little overwhelming because I had no idea what all the icons represented. Yes there is a book that comes with it explaining it and yes we didn’t really read it before getting started! In retrospect the best thing I did was watch some YouTube videos of people talking through the menu items.
The menus are not difficult to understand I was just in initial shock of trying to understand them all. The icons make sense and there are 2 menus inside of the software. Yes, software… the thermal scope is essentially a computer system on your gun that’s giving you a screen with information on it and view into the dark. As such, it does require some time to boot up when you press the on button.
The thing that is important to understand about the menu is that you zero the sights in in the menu, that it can hold “sight-ins” for 3 different weapons, and there is a reset button. Sometimes I got lost in the menus and didn’t know what I was clicking and changed the weapon number and even clicked reset. This did indeed make for a frustrating time sighting in the weapon. Once I learned what buttons not to click things got easier.
Gavin and I ended up sighting this gun in about 3 or 4 times as we learned more, messed things up, saw that our scope wasn’t tight on the gun, and figured out the menu items. Once you understand how it works sighting it in is fairly easy. Another trick that made sense was to use hot-hands hands on the middle of your target. If you want to go the extra mile, soak a pizza pan in ice-water and then put it behind the hot-hands on the target. This creates a cool circle encompassing a hot center, which in the scope creates a good contrast for you to aim at.
After several times out with the gun and sighting it in we finally started hitting the target where we wanted to… in the bullseye.
Videoing with a Pulsar Recorder
One neat thing about digital night vision is the ability to record the footage from inside your scope. Since it’s a computer, why not right? PULSAR has different models and with the more recent models the video recording capabilities are getting even better and more user friendly. Our experience with the video recorder left some to be desired and required some learning on our behalf.
The video recorder for the model scope I have is the CVR 640 and it mounts on the weaver/picatinny rail… that is it can be attached to anywhere you see the grooved sections on the gun. In my scenario this meant I could attach the recorder on the side of the scope or on the front of the gun. I initially attached it on the front of the gun because this made ergonomic sense. The recorder holds an SD card and you simply pop the SD card out to download the footage. The recorder plugs into the base of the scope and screws in tightly. The odd thing about this is that your gun literally has cables running down & around it (however you handle your cable management that is).
I was very excited to video all the coyotes we would be busting in the near future! Sure enough it wasn’t long before we had coyotes in the scope and started pulling triggers. The first time I was sure that I was recording when I shot. I looked at the video box and noticed the blue light wasn’t on anymore. How terrible luck was it for the batteries to die right before the shot! So I got new batteries.
A few hunts later the same thing happened. Did I have a bad batch of batteries or what? After 8 live-action shots that were recording, but yet failed to record I had had enough. I’d put in numerous new batteries and nothing worked… I was going to get to the bottom of this. We had some hunts coming up and I left the gun with Gavin during one of our re-sight-in attempts. Gavin and I were both doing research on this issue. Gavin noticed that even though the recorder has a weaver rail and mounts to the gun it was NOT rated for recoil. I told Gavin to remove the video recorder from the gun, put it in his pocket and record himself sighting the gun in and see if the video stopped recording. BINGO! We’d found the culprit. Gavin said the video recorder continued to record during the shots when not attached to the gun. This let us know that the video recorder will record if it wasn’t attached to the gun when shooting.
The First Coyote on The Ground With Night Vision
With multiple times to the range figuring out the sighting in process and now with the video issue out of the way we were ready to rock and actually get some footage. We had been bummed about previous footage attempts because we had some great encounters. We were about to change that.
Gavin and I were requested to help a local farmer out who has a hog problem. We had indeed gotten hogs on camera at the location and were headed in to assist. When we arrived to the location we went in to the field scanning with the monocular as we walked toward our stand. Gavin saw that hogs were already in the field. So we dropped down to a knee and just watched. Right then a coyote started howling very close to us. To our surprise the coyote howl startled the hogs and they exited the field that they had just entered. I was surprised that hogs would be intimidated by coyotes, but thinking back on it the hogs has some young ones with them and maybe their leaving the field was to protect the young ones.
I told Gavin we should go to the area on the other side of the field where there is a deer stand and just be patient. I was sure the hogs would return. We agreed and slowly retreated to the other area of the field. We were just sitting there talking letting time pass when coyotes started howling very loudly again. This time there were more than one howling. We were hog hunting, but we did have the coyote call in the truck. Frustrated at the situation Gavin said “I’m going to the truck to get the call”.
After returning back from the truck Gavin set the call up and said “Get in the gun because when I hit this call they are going to come in”. So I did as Gavin instructed and turned the scope on.
If you’re wondering why my scope would even be off… night vision and thermal optics flat eat batteries. If you’re going thermal do yourself a favor and order the extended battery pack so that you are not like me and have to carry around packs of batteries in your pockets and constantly replace them.
Back to the story... Gavin told me to get in the scope and I did just that. Gavin played some coyote whimpers and a coyote duet, new sounds we’d just downloaded to the FoxPro before leaving. I was scanning left and Gavin was scanning right. We stopped the calls and it was quiet, crisp, and clear out. Nothing responded… no howl backs, no barks, nothing. Then all of a sudden Gavin whispered “There he is” and at that I turned to the right and saw a coyote crossing my face from right to left. I followed this coyote waiting on it to pause so that I could squeeze the trigger. Gavin said “What are you doing turn right turn right”. What we didn’t know until afterwards was that Gavin didn’t see the coyote I saw. He had seen another one, a bigger one, to our right. I told Gavin “Shut up” and he said “There’s a big one here on the right”. I said “Make him stop, say something, bark” and he responded “A big one on the right”. It was not easy to pull the scope off the one I was following and turn right, but I did. What I saw was indeed a larger coyote on our right. I put the crosshairs on him and squeezed off. I could tell from the video that I hit him! I then swiveled back left and got back on the coyote that I had seen earlier. It paused just enough and I dropped it on the spot.
It all happened so fast. My heart was pumping and adrenaline was racing, but one thing was for sure. We definitely had the scope sighted in correctly this time. And when I pulled the video recorder out of my pocket it was still recording! We had footage to review!
We looked and looked for the first coyote, but could not find it. We think it ran off and died somewhere, but we did recover the second coyote and got some pics. Man it was a fun hunt.
And now you can re-live the hunt with us in the below video:
Tips For Hunting With Thermal Night Vision
Throughout this process we’ve learned a good deal about AR-15’s, night vision scopes, PULSAR, and recording video. Here’s a list of things we’ve learned and hopefully they are helpful to you in some way:
We are excited to announce that two of our WeHuntSC.com members are now Pulsar Pro-Staff members. Adam Smith and I were recently selected to the Pro-Staff team and we are excited to see what 2019 has in store. As you may have seen in our posts, our team has been doing a lot of night hunting lately and we use Pulsar scopes on our setups. We’ve been putting a lot of time into the images and videos we share from the hunts and Pulsar has recognized.
Adam and I look forward to learning more about Pulsar’s vision for the future of night hunting, thermal optics, and to learning more about Pulsar products. If you are interested in Pulsar’s products and/or want to know more about our setups feel free to reach out.
Once you choose a font you can click to the “Type Tester” section to see how any specific words you type will look in your selected font. You can easily increase or decrease the font with the slider and you can also view how the font looks in various browsers on the “Browser Samples” tab as shown in the screenshot below.
Typekit uses “kits” to organize fonts for usage by designers. It’s really easy to create a new kit. Simply hover the kit section and click “Add New Kit”. As you can see from the screenshot below, I've created a kit for each site on which I use custom fonts. You can see how to add a new kit in the below screenshot.
Now that the "kit" is ready I need to add some fonts to it. Once you decide on a font you simply hover over the font and click “Add to Kit” and the font will be added to the kit for which you are currently viewing as denoted in the below image.
After you add a font to a kit you can go into the "kit editor" to further customize. Once you’re inside the kit editor you can customize various settings and styles that make the custom fonts appear on your site. You can simply add the CSS selectors that you’re using on your site & they will then render showing the custom font that you've just selected in Typekit. Notice in the below screenshot where I'm adding " .ANewSelector " class in Typekit's editor.
If you wanted to access specific weights & styles via your skin.css file you can click on the “Using weights & fonts in your CSS” option which will give you the below screen allowing you to copy the CSS necessary for your specific font & weight.
Now if you did click the “Copy CSS” option you would end up with some CSS that resembled the below:
font-family: "atrament-web",sans-serif; font-style: normal; font-weight: 400;
Once you click publish you will be ready to go. I should also mention that if you want to develop or test out styles locally you can also enter “localhost” in your kit editor settings and that will make your local sites work with the new custom fonts.
If you were concerned about how your styles would display on mobile devices you can click into the "Mobile Settings" section of the Typekit editor as seen in the below screenshot.
Now to make all of this active we need to click the big green “Publish” button at the bottom right hand corner of the kit editor screen which you can see in the below screenshot.
Then in my HTML Module I simply referenced the CSS classes that I specified earlier in the Typekit selectors area.
And that's all it takes to get everything lined up. You can see an example of the redesigned home page (running locally) using the custom font “Atrament web” that I selected earlier.
Typekit makes it extremely easy to use custom fonts in your site. If you’re a Creative Cloud member you should check it out. I hope this blog has been helpful to you with integrating custom fonts in your DotNetNuke sites.
We were recently approached for assistance by a South Carolina farmer with hog problems. He’d heard we had a night vision setup and that we could potentially help him with hog control. It took us a while to get a hog on the ground and this blog is the lead up to accomplishing the goal.
Hunting Coyotes Leads to Hunting Hogs
If you’ve been keeping up with the blog here then you’ll know that we recently upgraded to a night vision setup to better hunt coyotes. One of the locations where we hunt coyotes is near a farm and recently the farmer told us that hogs were really giving him problems. They were rooting up his land so much that he’s also hired a guy to trap the hog. Nobody on our team is a hog expert but we wanted to do our best to help and we were up for learning!
The trapper was regularly catching hogs in the pen and we figured we’d put out a game camera to get a feel for what was going on. In 3 days we had 600 pictures and there was a large pack of hogs that were coming in all throughout the night starting shortly after sundown. It was hard to tell exactly how many, but we guessed 10-15. We got a pattern for when they were coming and we threw out a little corn and planned a date to try out first hog hunt.
The First Hunt
Gavin and I were excited to try and get a hog. Neither of us had shot a hog before because we don’t have them around our hunting leases. It would be a first for us and that helped make it a good challenge. I guess I should also add here that our first hog hunt also occurred during the same time frame where we were having issues sighting in the thermal scope!
On our way to the farm we talked about waiting until the whole group got there so we could have better chances for multiple hogs and we could pick out the biggest one. They were coming out in groups, per the recon from the game camera. We had a plan and were ready to rock.
We arrived to the farm around 9 and got setup. We’d been there about 35 minutes when we started to see some heat signatures coming through the woods. At first it was one big hog, walking solo and I was whispering to Gavin “Shoot that big rascal!” but Gavin held off. I was all excited and Gavin was actually doing what we’d discussed on the way over there… and I was glad he did. Just a few minutes later the woods lit up. It was a sight to see. 12 hogs all came from the same direction and headed out to the corn. Having never seen a hog before I didn’t really know what to expect. The first thing I noticed was how quickly they moved around. I figured they’d be slow, sluggish, and hold still for long periods of time, but that was not the case. They can move pretty quickly. Once the whole group got out there Gavin picked one out and shot. The whole group scattered and he shot again. We went down and walked and looked for blood… nothing anywhere to be found. We’d missed. Another trip to the shooting range was to come.
More Trips to the Farm
After missing the hog we were again frustrated. We re-sighted the gun in and waited until the next weekend. All the while we’re putting out corn and the farmer is filling us in on when the hogs are back. On the next weekend that we could line things up we headed back. This time as we approached the field we saw the hogs entering the field from a different location. It was about to be the quickest hunt ever. Just when we started looking in the scope we heard coyotes howling very close to us. We stood there trying to figure out what to do. As we watched the hogs in the monocular the coyotes continued to howl and to our amazement the hogs turned around and exited the field. Looking back on it we think the hogs left to protect their young ones. They had 3 little hogs with them and leaving was probably the best bet for them with the coyotes howling like crazy on the edge of the field. After this happened we stayed there for a while and waited. We felt sure the hogs would return. They didn’t. So, we broke out the coyote call and stared calling coyotes. That’s the night I shot 2 coyotes on video as seen in this video.
Shooting the coyotes proved that the scope was indeed zero’d in and we had more confidence. The next weekend came around and we returned yet again. This time the hogs were there when we arrived! We got into position and it was Gavin’s turn on the gun again. He put the dot on the hog and let the hammer drop. We both could see in the monocular and scope that when he shot the hog he was aiming at jumped up in the air. We knew he’d hit it! We went down and found blood. We trailed blood for 2 hours through some very thick briars and ultimately the blood trail stopped and we never found the hog. Frustrating again, but we were inching closer.
Going From 223 to 300 Black Out
We reviewed the footage and it was evident that Gavin made a good shot. With this we discussed and researched and decided to make some changes. We worked with the team at Reel Determined Outdoors to change out the upper on the Anderson Rifles AR=15 from a 223 to a 300 black out. This is a unique capability of the AR that gives hunters flexibility. In this scenario, it allowed us to shoot a bigger bullet, one that most hog hunters use.
The next weekend we went back and stayed out there for 3 hours and never saw a hog, but did hear a bunch of coyotes and I missed a coyote! This time we knew the scope was dialed in, I’d just made a bad shot.
Interested in our setup?
We shoot an Anderson Arms AR-15 with RF-85 technology. (You never have to oil the gun). On top of the gun we have a Pulsar Thermal Scope + video recorder. Any Anderson gun and any Pulsar Thermal Scope will be great setup for you too!
The Hunt We Finally Got It Done
You may be reading and wondering “How many weekend is it going to take for things to line up for these guys?” … and that’s exactly what we were wondering too. Our luck would be changing soon though.
The farmer reached out to us about mid-week and said “The hogs are back big time”. He’d seen more and more evidence of the hogs rooting and they had wiped out all the corn that we had out. (Side note: trying to keep a pack of hogs fed with corn gets expensive quickly!) So we planned our hunt.
Again this time the hogs were out in the field as soon as we got to the field. Gavin and I quietly got into position. The whole time we could hear the hogs grunting and snorting down near the pen. From the look of the monocular it seemed like one hog was actually trapped in the pen, but we’d later see that it wasn’t.
It was Gavin’s “redemption hog” turn on the gun. I’ve got him trained not to be shooting anything until I’ve got video rolling too 😉 Anyways, we were in position, gun was sighted in very nicely, video was rolling and I gave Gavin the greenlight. We were whispering to each other about which one he was going to shoot. I was watching in the monocular while Gavin was in the scope. Gavin asked me if I was ready and I said yes… then there was a long pause. Gavin giggled… he said “I didn’t take the safety off!” Yes it sounds crazy, but we were so worked up and ready to get it done that our hearts were beating and we were both breathing heavy! Then he said “Aight, I’m shooting the big one” and moments later the first shot rang out. As they ran off Gavin continued to unload on the big boy, which we’d also discussed on the way to the farm. At the shot there was no sign of hitting the hog. It did not jump, flinch, or move awkwardly. With the 223 we tried for head shots, but with the 300 black out we put it on the shoulder. Gavin and I talked as we tried to calm down. He said he felt he made a good shot.
Minutes later we went down to the area where the hogs were. No blood. What! He made a good shoot, the gun was sighted in, we’d upgraded to a bigger bullet… why did it not work out! We were already making plans to go back, yet again, to the shooting range. We decided to walk over in the direction where the hogs ran. There was no blood anywhere to be found. We scanned in the thermal looking for heat signatures in the field and didn’t see anything. The only thing we saw were a few wet spots that looks like slobber or something in the dirt, but it definitely wasn’t blood. We were growing frustrated as you can imagine.
This farm is in an area with lots of hills. As you can see in the video the hogs were just behind a small hill when we shot. As we talked and walked the edge of the field you could just tell there was a vibe of frustration, an energy of we-didn’t-get-it-done-yet-again going on. Then Gavin said “What is that?” And I said “What?” He pulled out the thermal scope and said “That’s the freaking hog right there!” and I looked and man it was huge laying right there on the edge of the field. What happened was the hog did not bleed at all and ran about 60 yards around a corner and laid down on the edge of the woods just behind a hill of dirt. This is why we could not see it in the thermal. Instantly we got all excited and the vibe changed from one of dejection and frustration to one of celebration and excitement! We’d finally accomplished the goal and got a hog on the ground. And yes the 300 blackout really put it on the hog. We high-fived and drug the hog out to take some pics. When we grabbed the hog to drag it and take pics we had to re-grip the legs because it was so big. I’ve drug a lot of deer in my life and this thing was heavier than any deer I’ve ever drug. I’m guessing it went around 220 lbs. It was a healthy female hog and yes it stunk!
After multiple attempts at getting a hog we finally succeeded and it felt good to get in the end zone for once! We finally had proof to the farmer that we could help him out. We’ve finally got things dialed in and set up and guess what… the farmer has already let us know that the hogs are back again so we will be heading back out sooner than later.
Do you have problems with hogs or know a farmer who does?
We are now ready to help! Just reach out to us here on the website via the Contact Us form or contact Gavin Jackson at 843.517.9920.
In the past few years I’ve been getting into IOT. You may have seen tweets or blog about the Tech-Turkey project I’ve been working on or flame throwing pumpkins at Halloween. I’ve learned and used Arduinos, Raspberry Pi’s, and Particle Photons and Electrons. It has been fun to learn more and get into the connected world… the internet of things!
I’ve been keeping ServoCity in business and even recently worked to get a custom PCB created. Every step of the way I’ve been learning different things and realizing just how much more there is to learn. Recently I’ve started learning more about Splunk.
What is Splunk If you don’t already know what Splunk is, Splunk is a software company based in San Francisco that produces software for searching, monitoring, and analyzing machine generated big data via a web style interface. Splunk’s software helps organizations with operational intelligence, log management, application management, enterprise security and compliance.
Side note: In my first exploration into Splunk I wrote a blog about using Splunk with DNN that may interest you.
Particle & SplunkDNN is a web application, but what if I wanted to get data from an IOT device? That’s when we call on Particle. If you’re not familiar with Particle, it makes it really easy to bring real world objects online. Particle is one of my favorite IOT platforms. It makes awesome microcontrollers, provides a nice IDE, has awesome documentation, and a great community. Connecting to Particle’s cloud is straight forward and even southerners can do it! See my presentation at our user group on DNN & Particle.
If you’re not familiar with Splunk, it makes it really easy to pull in data (machine data) and make sense of it. I’m talking about parsing vast amounts of data, creating visualizations and/or alerts and making it simple to understand. Even southerners can use it too!
Both Particle and Splunk are industry leaders and have some really big names behind their companies and as clients of their companies.
So why not bring Particle & Splunk together?
Reading Temperature with ParticleTo use the awesomeness that both solutions bring us we’ll first need to read the temperature and post it to a webservice. Here again, Particle makes this easy. I used a basic temperature reader in a bread board layout for this experiment.
Then, in Particle’s IDE I used the basic tutorial level code to read an analog value and post it to a Particle cloud variable. Cloud variables are accessible via web services. That is, I can make a GET request and parse the JSON object to get the data. Epic.
Now we were cooking with oil! The next step was to get this data into Splunk.
Getting Particle’s RESTful Data Into SplunkGetting RESTful data into Splunk is really straightforward thanks to Splunk’s extensibility. Splunk has an extensions gallery that can be found on the Apps and Ad-Ons sections of the Splunk website. I tell you this because ultimately, I followed a blog by Damien Dallimore on getting REST data into Splunk which used a modular input extension and that was all it took. I simply completed the required fields in the Splunk REST Modular Input as shown below.
After clicking save, the data from my Particle temperature reader was showing up in Splunk!
Creating Dashboards from the Particle DataOnce data shows up in Splunk you can literally perform any search query you want on the data and create/configure dashboards, panels, reports, alerts and more. Splunk is very powerful in this regard and scale to infinity. However, for this scenario I just wanted log the temperature over time from one device, as well as the temperature’s highest, lowest, and average. Splunk, again, made this very simple.
After clicking on the “result” field I created some visualizations and voila! Out popped some neat dashboards showing all my data in a way that’s easy to understand.
If you are like me, you kind of want to see things in action. So for those of you like me who are visual learners, here’s a quick video of the solution in action.
An IOT Combination That’s Hard to Beat!As you can see, both solutions are awesome and the opportunities are endless. Consider the possibilities here… Particle is easy to deploy and post data to the net and Splunk can easily connect, suck in data, and bring instant insights. The more data you give to Splunk the more knowledge you’re going to have. Splunk can handle this at scale too… I mean massive scale. Why not connect thousands of devices and pump all the data into Splunk and tune it to your liking! I believe that’s what they refer to as operational intelligence 😊 Now my mind is spinning with possibilities. Is yours?