Stumbled on this blog earlier today and spent some time listening to the archived broadcasts:
AFRTS Archive
AFRTS stands for Armed Forces Radio and Television Service, and it is the 'command information' service that brings news and entertainment to US service members and their families stationed worldwide.
Before the advent of internet, cable TV and satellite communications AFRTS was often the only 'voice of home' available to service members. AFRTS, through its local and regional AFN (Armed Forces Network) affiliates like AFN Europe and AFN Korea provided (and still provides) American TV and radio broadcasts and programming to meet the unique needs of the regional listening audiences. For example, AFN Europe would provide radio and TV news coverage of events happening in Germany that impacted soldiers and their families, like daily monetary exchange rates, local weather reports (helpfully provided by US Air Force weather forecasters), local traffic conditions on German roads and even local community festival schedules.
AFN would provide a mix of stateside TV programming (Sesame Street or 20 year old episodes of 'Gunsmoke' or current soap operas), the occasional live sporting event (we always got to see the Super Bowl) and old movies interspersed with locally produced shows like 'Gasthaus', a weekly program on German culture and events, or local news spots about unit football competitions or upcoming military exercises. Since AFRTS is a non-profit operation specifically for US military consumption the major networks provided programming at reduced rates. However, the commercials had to be stripped out and replaced with government 'infomercials'. These informercials were often quite drab - 30 second or minute long spots on such scintillating topics as "Safeguarding your military ID card" or "Remember to keep your barracks door locked to prevent theft".
Since much of the local programming was done by young service members who joined the military specifically to learn the ins and outs of radio and TV production the locally produced infomercials and other TV spots could be quite humorous. When you turn a bunch of 19-year olds loose with a camera and orders to come up with a TV spot on, say, ways to alleviate the family housing shortage you can end up with some pretty funny stuff.
AFN was our link to home. AFN TV provided the kids and wives a window back in to what was happening in America, and AFN Radio was the 'background noise' to our life in Germany. Every unit kept a radio tuned to AFN (after all, it was a 'command information' service). Walk in to any orderly room, barracks, motor pool or supply room in Germany and you'd hear AFN booming from a radio. Heck, even Germans tuned regularly to AFN radio for the music programming, it was that good.
Today when I listen to an old AFN Radio broadcast and hear the distinctive AFN Europe hourly time signal ("beep, beep, beep, beep, BEEEEEEP - From AP, UPI and the major American networks, the news is next on AFN") I am pulled back to Germany in the early 1980s and the height of the Cold War, walks through the quiet snow blanketed market square of Heidelberg on a Christmas night, drives through the Bavarian Alps on bright sunlit summer days, cruises down the Rhine River through the Loreli Gorge and strolls through small towns so old the cobblestones in the streets were placed well before the American Revolution.
Great times and wonderful memories all framed by the sights and sounds of AFRTS.
Brian
Thursday, November 25, 2010
Book Of The Month - 'There's A War To Be Won'
I have a small but fairly complete library on US military history, focusing on the US Army in WWII. My library contains a lot of great books, works from John Keegan (England's preeminent military historian) to Steven Ambrose (the prolific historian and author who gave us Band of Brothers) to Charles B. MacDonald, the wide ranging military historian and author who served as the Army's Deputy Chief Historian and, based on his own WWII experiences, wrote the classic volume on small unit leadership, Company Commander.
World War II is certainly the most written about war in history. The amateur historian could spend a lifetime reading about it and studying it (and Lord knows, I have!). Today, more than 60 years after the surrender of Japan and the end of the war historians are still unearthing new material or developing fresh, relevant and interesting interpretations of old material. The interested reader has so many great choices when it comes to the study of WWII that it is hard to know where to start. The usual advice to anyone wanting to begin studying the war is to pick up a good one volume history to help develop a framework for further study. That is great advice, and there are a number of excellent one volume histories of the war (my personal recommendation is John Keegan's The Second World War).
What was lacking for decades, however, was a good one volume history of the US Army's involvement in WWII. In particular, an analysis of the how and why of the US Army's success was never really covered in a general history volume. Every reader of WWII knows the what of the US Army's involvement in WWII - immediately after WWII the US raised, trained, deployed and supplied the largest Army in our history that simultaneously and decisively defeated our enemies in two global theaters of war. What was always missing was the how; how did the US come to have, almost overnight, the finest fighting force the world had ever seen? Most histories of the war place the US Army's fighting forces on the battlefield as though they they magically appeared, fully manned, equipped and trained.
The real reasons for the US Army's success in WWII is one of the great back stories of history, and it is told in engaging and easy to read style in Geoffrey Perret's There's A War To Be Won. Perret gives us the why of the US Army's success and details how the roots of that success were laid down as far back as WWI, where a group of young and talented Army officers like George Marshall, George Patton and Dwight Eisenhower absorbed the lessons of that war and nurtured the Army's professional leadership development through the lean inter-war years. The foundations for the Army of 1946 were set as far back as 1927, when Lieutenant Colonel George C. Marshall was assigned as Deputy Commandant of the Infantry School at Fort Benning, Georgia. From that assignment Marshall began his steady push for the revamping and modernization of the US Army's doctrine. He turned the Infantry School into a laboratory of innovative thinking that drove the Army to shed it's 19th century warfighting mindsets and prepare itself for strategic warfare on a mobile battlefield. This was the how of our success. It didn't happen overnight, but was a deliberate process started well before WWII and was led by gifted, forward thinking and innovative leaders.
Along the way Marshall kept his eye on a group of sharp young officers that he would later pull up into critical leadership roles. Mark Clark, Omar Bradley, Matthew Ridgeway, Maxwell Taylor and James Gavin were all young captains or majors when they caught Marshall's eye. When the Army exploded in size following Pearl Harbor and Marshall needed sharp talent to guide and command these new forces he reached down and pulled these talented young officers up into high leadership positions. Many jumped one or even two ranks overnight. But just as quick as he could promote you he would fire you if you didn't perform. Once he was made Army Chief of Staff in 1939 he cut a wide swath through the senior ranks in the Army, firing or forcing the retirement of dozens of senior officers who were too old, too out of shape, too hidebound or just too damned stuck in their ways to have a place in the modern global Army that Marshall was creating. Many of those he fired had outranked him just months before he became Chief of Staff. Marshall could be ruthless, but his ruthlessness had a purpose - he knew the coming war was going to be fought against enemies that were world class and had already proven themselves time and again on the battlefield (the German Army at the time appeared unstoppable as it roared eastward into Russia and the Japanese were on a steady march across Southeast Asia). Defeating these forces would require the best leadership talent the US Army could create. The citizen-soldiers of the United States deserved nothing less and Marshall would accept nothing less. This was the why of our success - taking that raw citizen-soldier talent and making leaders out of it. It is a leadership production model that still serves us well today through institutions like West Point, ROTC and Officer Candidate School.
Perret's work shines a full light on Marshall's genius, character and professionalism and makes it clear that he was the principal architect of America's victory in WWII.
There's A War To Be Won is a great book - easy to read, not too technical and it holds the reader's attention. More importantly, you'll come away with a much better understanding of why the US Army in WWII was the finest fighting force the world had ever seen.
Brian
World War II is certainly the most written about war in history. The amateur historian could spend a lifetime reading about it and studying it (and Lord knows, I have!). Today, more than 60 years after the surrender of Japan and the end of the war historians are still unearthing new material or developing fresh, relevant and interesting interpretations of old material. The interested reader has so many great choices when it comes to the study of WWII that it is hard to know where to start. The usual advice to anyone wanting to begin studying the war is to pick up a good one volume history to help develop a framework for further study. That is great advice, and there are a number of excellent one volume histories of the war (my personal recommendation is John Keegan's The Second World War).
What was lacking for decades, however, was a good one volume history of the US Army's involvement in WWII. In particular, an analysis of the how and why of the US Army's success was never really covered in a general history volume. Every reader of WWII knows the what of the US Army's involvement in WWII - immediately after WWII the US raised, trained, deployed and supplied the largest Army in our history that simultaneously and decisively defeated our enemies in two global theaters of war. What was always missing was the how; how did the US come to have, almost overnight, the finest fighting force the world had ever seen? Most histories of the war place the US Army's fighting forces on the battlefield as though they they magically appeared, fully manned, equipped and trained.
The real reasons for the US Army's success in WWII is one of the great back stories of history, and it is told in engaging and easy to read style in Geoffrey Perret's There's A War To Be Won. Perret gives us the why of the US Army's success and details how the roots of that success were laid down as far back as WWI, where a group of young and talented Army officers like George Marshall, George Patton and Dwight Eisenhower absorbed the lessons of that war and nurtured the Army's professional leadership development through the lean inter-war years. The foundations for the Army of 1946 were set as far back as 1927, when Lieutenant Colonel George C. Marshall was assigned as Deputy Commandant of the Infantry School at Fort Benning, Georgia. From that assignment Marshall began his steady push for the revamping and modernization of the US Army's doctrine. He turned the Infantry School into a laboratory of innovative thinking that drove the Army to shed it's 19th century warfighting mindsets and prepare itself for strategic warfare on a mobile battlefield. This was the how of our success. It didn't happen overnight, but was a deliberate process started well before WWII and was led by gifted, forward thinking and innovative leaders.
Along the way Marshall kept his eye on a group of sharp young officers that he would later pull up into critical leadership roles. Mark Clark, Omar Bradley, Matthew Ridgeway, Maxwell Taylor and James Gavin were all young captains or majors when they caught Marshall's eye. When the Army exploded in size following Pearl Harbor and Marshall needed sharp talent to guide and command these new forces he reached down and pulled these talented young officers up into high leadership positions. Many jumped one or even two ranks overnight. But just as quick as he could promote you he would fire you if you didn't perform. Once he was made Army Chief of Staff in 1939 he cut a wide swath through the senior ranks in the Army, firing or forcing the retirement of dozens of senior officers who were too old, too out of shape, too hidebound or just too damned stuck in their ways to have a place in the modern global Army that Marshall was creating. Many of those he fired had outranked him just months before he became Chief of Staff. Marshall could be ruthless, but his ruthlessness had a purpose - he knew the coming war was going to be fought against enemies that were world class and had already proven themselves time and again on the battlefield (the German Army at the time appeared unstoppable as it roared eastward into Russia and the Japanese were on a steady march across Southeast Asia). Defeating these forces would require the best leadership talent the US Army could create. The citizen-soldiers of the United States deserved nothing less and Marshall would accept nothing less. This was the why of our success - taking that raw citizen-soldier talent and making leaders out of it. It is a leadership production model that still serves us well today through institutions like West Point, ROTC and Officer Candidate School.
Perret's work shines a full light on Marshall's genius, character and professionalism and makes it clear that he was the principal architect of America's victory in WWII.
There's A War To Be Won is a great book - easy to read, not too technical and it holds the reader's attention. More importantly, you'll come away with a much better understanding of why the US Army in WWII was the finest fighting force the world had ever seen.
Brian
Sunday, November 21, 2010
Things of Global Importance - The US National Grid
OK, everybody get on your beanie hat with the spinny propeller - it's uber dork time.
As I continue work on my PowerPoint opus magnum on magnetic declination I'm becoming reacquainted with issues, concepts and developments I never paid much attention to in my years of work in the topographic field.
One of these developments is the US National Grid System. (Hey, I warned you this was going to be a dorky post.)
Huh? The US National Grid System?
While the US Geological Survey (USGS) has done an outstanding job of mapping the US at large scales (1:24,000 and 1:100,000) there has never been an 'official' map grid system selected for use on US topographic maps. For decades USGS maps have sported both Universal Transverse Mercator and Latitude/Longitude grid tics, in sort of a 'we can't make up our minds, so we'll give you everything' approach. Problem is that the UTM grid system, while accurate, is clumsy and somewhat difficult for the average hiker, Boy Scout or search and rescue team member to use. Soooo many numbers, and little numbers and big numbers, and some numbers that are repeated, and numbers going north have more digits than the numbers going east. Plus, you have to draw your own lines to connect the tic marks and create your own grid. It's all so confusing. And cumbersome. And unnecessary.
Waaaaay back in the 1940s the US Army got it figured out, and created the Military Grid Reference System (MGRS). MGRS was (and still is) a map grid system based on the UTM coordinate system, but it is greatly simplified so that a soldier can locate himself with an alphanumeric designator that uniquely describes his position anywhere in the world. The Army extended this standardized coordinate system around the globe (including the US) and over the years has produced hundreds of millions of maps using the MGRS coordinate system. Along the way the Army simplified and standardized map reading techniques using MGRS in conjunction with coordinate scales and compasses, published one of the premiere texts on map reading and land navigation (FM 21-26) and proceeded to teach millions of Soldiers, Marines and the occasional Sailor and Airman the finer points of map and compass work.
Unfortunately the USGS never followed the Army's example. With only minor exceptions, USGS 1:24,000 scale topographic maps remained grid-less. Users were left to draw their own grids on their maps and figure out the maddening complexity of the UTM coordinate system.
Aaah, but the times, they are a-changing! Recognizing the growing need for a comprehensive national map grid system and spurred, I'm sure, by the post 9/11 drive for standardization and interoperability in national, regional and local disaster response efforts, the USGS has adopted a national map grid system. After much study, conferencing, research, investigation and consideration the USGS took the bold step of.... simply adopting the US Army's Military Grid Reference System. Now, this is not a bad decision. In fact, it's a great decision, but geezus guys, you could have done this like, oh, the middle of the last century!
But let's give credit where credit is due. Once the USGS decided to adopt the US National Grid System they jumped on it like a duck on a junebug. All maps produced under the new US Topo series will incorporate the US National Grid System, will have the full grid overprinted on the map, and legend information will include the full USNG grid identification diagram.
The great news is that if you remember your old Army map reading instructions, the US National Grid System works exactly like the Military Grid Reference System - heck, it is the Military Grid Reference System*, just implemented at a different scale (1:24,000 vs. 1:50,000). All the old rules are the same - remember to include the Grid Zone Designation and the 100,000 meter Square ID. And don't forget to read right and up!
The best way to learn to use the new US National Grid System is to download the Army's classic field manual on map reading and land navigation, FM 21-26. This FM is approved for public release so feel free to download it and study it. While the mechanics of map location are the same between grid systems, just remember that the scales are different. You can also download and print a US National Grid practice map (shown above) and a 1:24,000 coordinate scale from the Federal Geographic Data Committee US National Grid website.
So, your homework for this week is to download FM 21-26, the practice map and a coordinate scale and practice, practice, practice. There'll be an exam next week!
Brian
*OK, MGRS and the USNG are not exactly the same, but close enough that the difference doesn't matter. MGRS is built on the WGS 84 datum and the USNG is built on the NAD 83 datum. The ground difference between these datums are roughly 1 meter. For land navigation purposes this difference doesn't really matter. Hey, once again, I told you this was going to be a dorky post!
As I continue work on my PowerPoint opus magnum on magnetic declination I'm becoming reacquainted with issues, concepts and developments I never paid much attention to in my years of work in the topographic field.
One of these developments is the US National Grid System. (Hey, I warned you this was going to be a dorky post.)
Huh? The US National Grid System?
While the US Geological Survey (USGS) has done an outstanding job of mapping the US at large scales (1:24,000 and 1:100,000) there has never been an 'official' map grid system selected for use on US topographic maps. For decades USGS maps have sported both Universal Transverse Mercator and Latitude/Longitude grid tics, in sort of a 'we can't make up our minds, so we'll give you everything' approach. Problem is that the UTM grid system, while accurate, is clumsy and somewhat difficult for the average hiker, Boy Scout or search and rescue team member to use. Soooo many numbers, and little numbers and big numbers, and some numbers that are repeated, and numbers going north have more digits than the numbers going east. Plus, you have to draw your own lines to connect the tic marks and create your own grid. It's all so confusing. And cumbersome. And unnecessary.
Waaaaay back in the 1940s the US Army got it figured out, and created the Military Grid Reference System (MGRS). MGRS was (and still is) a map grid system based on the UTM coordinate system, but it is greatly simplified so that a soldier can locate himself with an alphanumeric designator that uniquely describes his position anywhere in the world. The Army extended this standardized coordinate system around the globe (including the US) and over the years has produced hundreds of millions of maps using the MGRS coordinate system. Along the way the Army simplified and standardized map reading techniques using MGRS in conjunction with coordinate scales and compasses, published one of the premiere texts on map reading and land navigation (FM 21-26) and proceeded to teach millions of Soldiers, Marines and the occasional Sailor and Airman the finer points of map and compass work.
Unfortunately the USGS never followed the Army's example. With only minor exceptions, USGS 1:24,000 scale topographic maps remained grid-less. Users were left to draw their own grids on their maps and figure out the maddening complexity of the UTM coordinate system.
Aaah, but the times, they are a-changing! Recognizing the growing need for a comprehensive national map grid system and spurred, I'm sure, by the post 9/11 drive for standardization and interoperability in national, regional and local disaster response efforts, the USGS has adopted a national map grid system. After much study, conferencing, research, investigation and consideration the USGS took the bold step of.... simply adopting the US Army's Military Grid Reference System. Now, this is not a bad decision. In fact, it's a great decision, but geezus guys, you could have done this like, oh, the middle of the last century!
But let's give credit where credit is due. Once the USGS decided to adopt the US National Grid System they jumped on it like a duck on a junebug. All maps produced under the new US Topo series will incorporate the US National Grid System, will have the full grid overprinted on the map, and legend information will include the full USNG grid identification diagram.
The great news is that if you remember your old Army map reading instructions, the US National Grid System works exactly like the Military Grid Reference System - heck, it is the Military Grid Reference System*, just implemented at a different scale (1:24,000 vs. 1:50,000). All the old rules are the same - remember to include the Grid Zone Designation and the 100,000 meter Square ID. And don't forget to read right and up!
The best way to learn to use the new US National Grid System is to download the Army's classic field manual on map reading and land navigation, FM 21-26. This FM is approved for public release so feel free to download it and study it. While the mechanics of map location are the same between grid systems, just remember that the scales are different. You can also download and print a US National Grid practice map (shown above) and a 1:24,000 coordinate scale from the Federal Geographic Data Committee US National Grid website.
So, your homework for this week is to download FM 21-26, the practice map and a coordinate scale and practice, practice, practice. There'll be an exam next week!
Brian
*OK, MGRS and the USNG are not exactly the same, but close enough that the difference doesn't matter. MGRS is built on the WGS 84 datum and the USNG is built on the NAD 83 datum. The ground difference between these datums are roughly 1 meter. For land navigation purposes this difference doesn't really matter. Hey, once again, I told you this was going to be a dorky post!
Thursday, November 18, 2010
Maps, Maps and More Maps
I want to place this post under the subcategory of "Best Use Of My Tax Dollars."
The US Geological Survey (USGS) has the stated mission of mapping the United States. That was one of the foundational roles of the USGS, and it is a role they took on with an almost missionary zeal from the beginning (the USGS was created in 1879 by act of Congress).
USGS set the standard for large scale (i.e., small area) mapping, and their 1:24,000 series topographic maps of the United States are classics. These are the 7.5' x 7.5' quadrangle sheets, commonly known as 'quads'. These quad sheets have been used to teach generations of Americans the basics of map reading, terrain association and land navigation. They have guided millions of hikers, orienteers, foresters, researchers, explorers, search and rescue personnel, hunters, fishermen, campers and canoers for over 100 years. USGS maps have, literally, served as the background to America's love of the outdoors and her expansion and growth across three centuries.
In the old days about the only way to get USGS topographic maps was to order them directly from the USGS or purchase them from a limited number of authorized sales outlets like camping supply stores. You can still do that if you like - a single USGS 1:24,000 map will run you about $8.00. Not cheap, but not bad for a high quality map printed via lithographic processes.
But this is the age of the World Wide Web, instant gratification and free data. The USGS has happily obliged us by putting virtually its entire inventory of topographic map products - at all scales - on line for instant download. The USGS online store offers an easy to use map search function under the Map Locator link. You can search for a particular map by address, place name or simply by picking a point in the map in the Google Map window. Using this process you can either purchase the paper map or download a free digital copy. The free digital map is a scanned copy of the original paper map in Adobe PDF format. The scan quality is good - not as good as the original paper map, but pretty darned good for a free product. These maps can be opened and read using the free Adobe Acrobat Reader application.
As an added bonus these maps are delivered in GeoPDF format. This means that the geographic extents of the map have been embedded into the digital map file. If you want to take advantage of this geospatial functionality you can download the free TerraGo Technologies plug-in for Acrobat Reader (available from a link on the USGS Map Store website). With this plug-in you can set the coordinate system of your choice (i.e., latitude/longitude, UTM, etc.) and select coordinates for features of interest, measure distance and area, measure azimuths and, if you have a compatible system you can link these digital maps to your GPS and use them as your navigation background.
But it gets even better! The functionality I just described is specific to the old generation of scanned paper maps. The USGS is producing an exciting new generation of 1:24,000 quadrangle maps known as the US Topo series. These maps have the same geographic extents as the traditional quadrangle maps, but instead of being created by traditional cartographic methods the US Topo series are created using aerial imagery or satellite imagery as the map background. This allows maps to be produced and updated much faster than the old traditional cartographic methods allowed. In many places of the US the traditional quad sheets have not been updated for over 50 years! The technology behind the new US Topo series of maps allows for much faster updating. As an added bonus (I think I'm starting to sound like Billy Mays here), since the US Topo maps began life as a purely digital file (they are created using a program called ArcGIS) the production process allows even more functionality to be embedded in the map file. Users of US Topo series maps will be able to manipulate virtually all of the data embedded in the map, turning data layers on and off. If you have a copy of Adobe Acrobat (not just Reader) you can make annotations directly on the map, adding comments, symbols and basic sketches.
Bottom line - this is all good stuff, and it's free. Go get it!
Brian
The US Geological Survey (USGS) has the stated mission of mapping the United States. That was one of the foundational roles of the USGS, and it is a role they took on with an almost missionary zeal from the beginning (the USGS was created in 1879 by act of Congress).
USGS set the standard for large scale (i.e., small area) mapping, and their 1:24,000 series topographic maps of the United States are classics. These are the 7.5' x 7.5' quadrangle sheets, commonly known as 'quads'. These quad sheets have been used to teach generations of Americans the basics of map reading, terrain association and land navigation. They have guided millions of hikers, orienteers, foresters, researchers, explorers, search and rescue personnel, hunters, fishermen, campers and canoers for over 100 years. USGS maps have, literally, served as the background to America's love of the outdoors and her expansion and growth across three centuries.
In the old days about the only way to get USGS topographic maps was to order them directly from the USGS or purchase them from a limited number of authorized sales outlets like camping supply stores. You can still do that if you like - a single USGS 1:24,000 map will run you about $8.00. Not cheap, but not bad for a high quality map printed via lithographic processes.
But this is the age of the World Wide Web, instant gratification and free data. The USGS has happily obliged us by putting virtually its entire inventory of topographic map products - at all scales - on line for instant download. The USGS online store offers an easy to use map search function under the Map Locator link. You can search for a particular map by address, place name or simply by picking a point in the map in the Google Map window. Using this process you can either purchase the paper map or download a free digital copy. The free digital map is a scanned copy of the original paper map in Adobe PDF format. The scan quality is good - not as good as the original paper map, but pretty darned good for a free product. These maps can be opened and read using the free Adobe Acrobat Reader application.
As an added bonus these maps are delivered in GeoPDF format. This means that the geographic extents of the map have been embedded into the digital map file. If you want to take advantage of this geospatial functionality you can download the free TerraGo Technologies plug-in for Acrobat Reader (available from a link on the USGS Map Store website). With this plug-in you can set the coordinate system of your choice (i.e., latitude/longitude, UTM, etc.) and select coordinates for features of interest, measure distance and area, measure azimuths and, if you have a compatible system you can link these digital maps to your GPS and use them as your navigation background.
But it gets even better! The functionality I just described is specific to the old generation of scanned paper maps. The USGS is producing an exciting new generation of 1:24,000 quadrangle maps known as the US Topo series. These maps have the same geographic extents as the traditional quadrangle maps, but instead of being created by traditional cartographic methods the US Topo series are created using aerial imagery or satellite imagery as the map background. This allows maps to be produced and updated much faster than the old traditional cartographic methods allowed. In many places of the US the traditional quad sheets have not been updated for over 50 years! The technology behind the new US Topo series of maps allows for much faster updating. As an added bonus (I think I'm starting to sound like Billy Mays here), since the US Topo maps began life as a purely digital file (they are created using a program called ArcGIS) the production process allows even more functionality to be embedded in the map file. Users of US Topo series maps will be able to manipulate virtually all of the data embedded in the map, turning data layers on and off. If you have a copy of Adobe Acrobat (not just Reader) you can make annotations directly on the map, adding comments, symbols and basic sketches.
Bottom line - this is all good stuff, and it's free. Go get it!
Brian
Sunday, November 14, 2010
GPS
I'll make this quick.
I'm deep into preparing a briefing/presentation/class on the issue of magnetic declination and the easiest rules to follow when you need to apply it.
What's magnetic declination, you ask? Sorry, that's not the topic of today's post. If you really - REALLY - need more information right now check out the Wikipedia page on Magnetic Declination. I'll be referring to it in a later post.
Anyway... I was mentioning to a friend that I was working on this presentation and he commented "Does anyone really care about that anymore? I think everyone has just gone out and bought a GPS."
I actually get that reaction a lot when I talk to people about compasses and using a map and compass to navigate. "Compasses confuse me. I'd rather just use a GPS" seems to be the common refrain.
(For the uninitiated, GPS stands for Global Positioning System, or space-based satellite navigation system. There are several operational (US, Russian) and developing (the European Union's Galileo) satellite navigation systems, but 'GPS' has become an almost a generic term used to describe the US developed and operated NAVSTAR system.)
I live and work in the world of GPS. I'm a geospatial professional and I run the GPS-based survey and data collection program at the World's Busiest Airport. Every day I am thinking about, using, training, developing policies on and attending meetings about GPS and how we use it at our airport. Everything from upgrading our high-precision GPS receivers to providing airport-specific input for the FAAs GPS-based NextGen precision approach program to review and quality control of project layouts generated using GPS-based survey systems. And more.
I am the biggest cheerleader for the GPS system and GPS-based technologies. GPS is perhaps the best example of a project that only the United States could do, and do right. The driver who switches on his Garmin Nuvi for the drive to the airport is leveraging tens of billions of dollars and decades of research, development, testing, deployment, maintenance and upgrades. All paid for by the US taxpayer, and all free to any user anywhere in the world.
Conceptually the GPS system is simple - satellites in space broadcast their position and your receiver (example - our driver's Garmin Nuvi) uses time shift calculations to determine the precise distance from your location back to the satellite. Once the receiver picks up and processes signals from at least two more satellites it can triangulate your position. The size of the position 'triangle' determines the accuracy of the position fix provided by the receiver, but in general a modern receiver tracking three or more good satellite signals can locate you to within about 15 feet of your true position anywhere on earth. That's pretty damned good by anybody's reckoning.
GPS has revolutionized many industries and spawned completely new ones. GPS systems are so pervasive that most people no longer give them a second thought. Today GPS technology tracks your package as it travels from the retailer to your door, and it tracks the paroled felon sporting the nifty ankle bracelet. GPS technology manages the hand-off of your phone conversation from one cell tower to another as you speed down the interstate, and GPS technology guides the angle of the bulldozer blade working a local road construction project. Anything that locates you on a map is universally identified as 'GPS', even if the function has nothing to do with satellite-based navigation. GPS has become an integral part of our lives and impacts us for the better every day.
And yet, GPS is a system with serious limitations. It can't locate you indoors, in tunnels, under overpasses, in dense forests or even in the man made canyons of large cities. The signals can be easily corrupted, blocked or bounced around so much they are virtually useless. The entire GPS system is a delicate balance of high technology and rocket science, enormously expensive to maintain and upgrade. At some point the GPS system - certainly a system that succeeds what we have now - will fail. It will fail due to funding shortfalls, political upheaval, changing national priorities or simple neglect. This failure is merely a recognition of a historical inevitability - man made systems always fail at some point.
Long after the GPS satellites go cold and dark in their far orbits and GPS receivers become little more than technological oddities, the magnetic compass will continue to offer reliable wayfinding. Using a compass (along with a map) is not easy or intuitive for most people, but once learned it provides a reasonably accurate, reliable, steady and 'always on' navigation capability that can not be turned off by man's whim or neglect. I feel fairly certain that at some time in mankind's future we'll be back to navigating using the simple, reliable magnetic compass. It's inevitable.
That's why I still practice my map and compass skills.
I'm deep into preparing a briefing/presentation/class on the issue of magnetic declination and the easiest rules to follow when you need to apply it.
What's magnetic declination, you ask? Sorry, that's not the topic of today's post. If you really - REALLY - need more information right now check out the Wikipedia page on Magnetic Declination. I'll be referring to it in a later post.
Anyway... I was mentioning to a friend that I was working on this presentation and he commented "Does anyone really care about that anymore? I think everyone has just gone out and bought a GPS."
I actually get that reaction a lot when I talk to people about compasses and using a map and compass to navigate. "Compasses confuse me. I'd rather just use a GPS" seems to be the common refrain.
(For the uninitiated, GPS stands for Global Positioning System, or space-based satellite navigation system. There are several operational (US, Russian) and developing (the European Union's Galileo) satellite navigation systems, but 'GPS' has become an almost a generic term used to describe the US developed and operated NAVSTAR system.)
I live and work in the world of GPS. I'm a geospatial professional and I run the GPS-based survey and data collection program at the World's Busiest Airport. Every day I am thinking about, using, training, developing policies on and attending meetings about GPS and how we use it at our airport. Everything from upgrading our high-precision GPS receivers to providing airport-specific input for the FAAs GPS-based NextGen precision approach program to review and quality control of project layouts generated using GPS-based survey systems. And more.
I am the biggest cheerleader for the GPS system and GPS-based technologies. GPS is perhaps the best example of a project that only the United States could do, and do right. The driver who switches on his Garmin Nuvi for the drive to the airport is leveraging tens of billions of dollars and decades of research, development, testing, deployment, maintenance and upgrades. All paid for by the US taxpayer, and all free to any user anywhere in the world.
Conceptually the GPS system is simple - satellites in space broadcast their position and your receiver (example - our driver's Garmin Nuvi) uses time shift calculations to determine the precise distance from your location back to the satellite. Once the receiver picks up and processes signals from at least two more satellites it can triangulate your position. The size of the position 'triangle' determines the accuracy of the position fix provided by the receiver, but in general a modern receiver tracking three or more good satellite signals can locate you to within about 15 feet of your true position anywhere on earth. That's pretty damned good by anybody's reckoning.
GPS has revolutionized many industries and spawned completely new ones. GPS systems are so pervasive that most people no longer give them a second thought. Today GPS technology tracks your package as it travels from the retailer to your door, and it tracks the paroled felon sporting the nifty ankle bracelet. GPS technology manages the hand-off of your phone conversation from one cell tower to another as you speed down the interstate, and GPS technology guides the angle of the bulldozer blade working a local road construction project. Anything that locates you on a map is universally identified as 'GPS', even if the function has nothing to do with satellite-based navigation. GPS has become an integral part of our lives and impacts us for the better every day.
And yet, GPS is a system with serious limitations. It can't locate you indoors, in tunnels, under overpasses, in dense forests or even in the man made canyons of large cities. The signals can be easily corrupted, blocked or bounced around so much they are virtually useless. The entire GPS system is a delicate balance of high technology and rocket science, enormously expensive to maintain and upgrade. At some point the GPS system - certainly a system that succeeds what we have now - will fail. It will fail due to funding shortfalls, political upheaval, changing national priorities or simple neglect. This failure is merely a recognition of a historical inevitability - man made systems always fail at some point.
Long after the GPS satellites go cold and dark in their far orbits and GPS receivers become little more than technological oddities, the magnetic compass will continue to offer reliable wayfinding. Using a compass (along with a map) is not easy or intuitive for most people, but once learned it provides a reasonably accurate, reliable, steady and 'always on' navigation capability that can not be turned off by man's whim or neglect. I feel fairly certain that at some time in mankind's future we'll be back to navigating using the simple, reliable magnetic compass. It's inevitable.
That's why I still practice my map and compass skills.
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