Rules facing to The Qiblah

Source : Google Earth Software

Understanding of the direction of Qiblah is very simple, because the problem of the direction of Qibla is only a directional problem, is the direction of the Ka'ba which is in Mecca and each place must have different direction in facing Qibla.

In simple terms it can be seen that the area in the South Kabah facing to the North, the area located in the North Kabah facing to the South, the area in the East Kabah facing to the West, the area in the West Kabah facing East,

If further clarified then the area located in the North East Kabah facing to the South West, the area located in the South East of the Kabah facing to the North West, the area located in the South West Kabah facing the North East and the area located in the North West Kabah facing South East.

It can be a bit complicated if we further see that the earth is round, then there must be a special calculation for it, but if in a state of urgency can use the logic above.

The meaning of Qiblah in language is derived from the word قبل- يقبل - قبلة, which means facing, whereas in term, the islamic astronomers define with the Direction closest to the Ka'ba, The direction in which Muslims confront their faces during the prayer.

So why should we face qibla ???

The scientist of the fiqh agree that facing the Qiblah in the prayer is a requirement of the validity of the prayer, as the syar'I proposition exists:

Allah has commanded this three times, namely in Al-Baqarah: 144,149 and 150:

قد نرى تقلب وجهك في السماء فلنولينك قبلة ترضاها فول وجهك شطر المسجد الحرام وحيث ما كنتم فولوا وجوهكم شطره وإن الذين أوتوا الكتاب ليعلمون أنه الحق من ربهم وما الله بغافل عما يعملون

and in the hadith :

 قال أبو هريرة رضي الله عنه: قال رسول الله صلى الله عليه وسلم: اذا قمت الي الصلاة فاسبغ الوضوء ثم استقبل القبلة وكبر. رواه   البخارى ومسلم

For people around the holy mosque overlooking the Ka'ba is not a problem because they easily do that. Then what about the people who are far away with the Grand Mosque even outside the city of Mecca. Are we still required to face the true Ka'ba? Or just with an estimate only?

The opinion of the scholars:

Imam As Syafi'i & Shi'a Imamiyah:
Obligatory to the Ka'ba itself, both for the near and far.
If you can know the direction of the Ka'ba itself (exact), then it must face in that direction. If not, then just with an estimate only. (az-Zuhaily, Tafsir Al-Munir, p. 234)

Imam Hambali, Maliki, Hanafi & some scholars of Shi'a Imamiyah:
The direction of qibla is the direction in which the Ka'ba is located, not the Ka'ba itself. (As Suyuthiy, Al Asybah Wa An Nazair, p. 116)

The clerical agreement
All scholars agree that the Ka'ba is a qibla for those who are close and can see it. But they differ on the qibla for the distant and can not see it. (as-Sya'rani, Al-Miizaan Al-Kubra p. 116)

Based on the strongness of prejudice, there are 3 methods in determining the direction of Qibla
1. Overlooking Qibla Sure
A person who is inside the Grand Mosque (Masjidil Haram) and sees the Ka'ba directly, must face himself to Qibla with confidence. This is also referred to as "Ain al-Ka'ba".

2. Overlooking Qibla Estimates
Someone who is outside the Grand Mosque so that they can not see the Ka'ba building, they are obliged to face the Grand Mosque as the intent of facing Qibla in a dzan or approximation is called "Jihat al-Ka'ba"

3. Facing Qibla with Ijtihad
Ijtihad can be used to determine the direction of Qibla from a place far from the Holy Mosque, such as someone outside the holy land of Mecca or even outside Saudi Arabia, the method used is "Jihat al-Qiblah"

Why should a mathematical approach in determining the direction of Qibla?
As long as there is a more accurate way why choose another less accurate way, In a qaidah ushul fiqh

لا عبرة بالظن البين خطؤه

"The theory or practice that is based on the zan (allegation) that is clearly wrong is not considered"

Google Qibla Finder

One of the requirements of a valid prayer is facing the Qibla, which is a Ka'ba in Mecca, Saudi Arabia.

To determine the direction of qibla there are many ways, ranging from traditional to modern. Some use a very traditional tool like a stick, some use simple tools but still have a fairly high accuracy such as Mizwala and Istiwaaini, some also use modern tools as well as Teodholite and Total Station. Use of some of these ways may still cause difficulties if who will determine is a beginner.

Nowadays has come a very useful technology for all human activity, that is smartphone. These benefits also apply to the determination of Qibla direction. Lots of users or developers who already take advantage of this technology, a lot of software / program direction of the Qibla is made for smartphones, let alone android smartphone. There are currently around 500 to 600 Qibla direction apps in the playstore, but if we are going to download the app it will be a bit complicated and confused, especially as the accuracy of the apps itself is untested.

But Google has responded to that, Google has presented a web-based qibla direction program that is highly compatible with smartphones especially android and has a very nice interface. The program is called Google Qibla Finder.

To use it we just need to open the browser, any browser through our smarphone, then slide to the site Google Qibla Finder then we will be taken to the Google Qibla Finder page.

Then please note that the GPS position must be in a state of luminous, so that our android can read the coordinates of where we are. In the next step we will choose the interface language we want, then press the Let's Go!

Then Google Qibla Finder will directly calculate, measure the direction of Qibla and apply it to a map which is the location where we are.

If we flip smartphone towards the front, then the interface will turn into a camera and the line appears which is the direction of our place qibla. We can directly mark the direction of Qiblah on our floor through the line that is in our smartphone camera.

Very practical without having to calculate and bring a tool to measure the direction of Qibla. Can we use wherever we are.

Note: There are some things to watch out for, smarphone must support multiple sensors, such as gps, compass and motion sensors, other than that the camera conditions must also be in normal. For the last step I can not exemplify because my camera is in error.

Good luck!

Examples for Qibla Calculation in Indonesia

In the previous post has been explained little about the formula of the direction of qibla for the region in Indonesia. so all places in Indonesia can use that formula to serve as a determinant of Qibla direction. Visit this Link. Qibla Formula for Indonesia

In this post, we will give 3 examples of calculations, first at Istiqlal Mosque-Jakarta, Baiturrahman Mosque-Semarang and al-Akbar Mosque-Surabaya.

Coordinate of Ka'ba in Google Earth

These 3 examples will be calculated by the coordinates of the Ka'ba that took from the Google Earth App. The coordinate of Ka'ba is 21˚ 25 '33,67" N and 39˚ 49 '33.27" E.

1. Istiqlal Mosque, Jakarta

Coordinate of Istiqlal in Google Earth

Qibla Calculation For Istiqlal Mosque :
a. Latitude: 6˚ 13' 00,97" S
b. Longitude: 106˚ 50' 11,54" E

Istiqlal Qibla Direction

c. λd = (λx - λx). = (106˚ 50' 11,54" -39˚ 49 '33.27") = 67˚ 0' 38,27"
d. Cotan QD = Tan φk * Cos φx / Sin λd - Sin φx / Tan λd.
Cotan QD = Tan 21˚ 25 '33,67" * Cos -6˚ 13' 00,97" / Sin 67˚ 0' 38,27" - Sin -6˚ 13' 00,97" / Tan 67˚ 0' 38,27".
QD = 64˚ 50' 23,85"
e. QA = 360 - QD
QA = 360 - 64˚ 50' 23,85"
QA = 295˚ 09' 36,15"

2. Baiturrahman Mosque, Semarang

Coordinate of Baiturrahman in Google Earth

Qibla Calculation For Baiturrahman Mosque:
a. Latitude: 6˚ 59' 00,23" S
b. Longitude: 110˚ 26' 45,67" E

Baiturrahman Qibla Direction

c. λd = (λx - λx). = (110˚ 26' 45,67" -39˚ 49 '33.27") = 70˚ 37' 12,4"
d. Cotan QD = Tan φk * Cos φx / Sin λd - Sin φx / Tan λd.
Cotan QD = Tan 21˚ 25 '33,67" * Cos -6˚ 59' 00,23" / Sin 70˚ 37' 12,4" - Sin -6˚ 59' 00,23" / Tan 70˚ 37' 12,4".
QD = 65˚ 30' 9,32"
e. QA = 360 - QD
QA = 360 - 65˚ 30' 9,32"
QA = 294˚ 29' 50,67"

3. al-Akbar Mosque, Surabaya

Coordinate al-Akbar Mosque from Google Earth

Qibla Calculation For al-Akbar Mosque :
a. Latitude: 7˚ 20' 10,95" S
b. Longitude: 112˚ 42' 54,29" E

Al-Akbar Qibla Direction

c. λd = (λx - λx). = (112˚ 42' 54,29" -39˚ 49 '33.27") = 72˚ 53' 21,02"
d. Cotan QD = Tan φk * Cos φx / Sin λd - Sin φx / Tan λd.
Cotan QD = Tan 21˚ 25 '33,67" * Cos -7˚ 20' 10,95" / Sin 72˚ 53' 21,02" - Sin -7˚ 20' 10,95" / Tan 72˚ 53' 21,02".
QD = 65˚ 56' 13,92"
e. QA = 360 - QD
QA = 360 - 65˚ 56' 13,92"
QA = 294˚ 03' 46,08"

From the 3 examples above can be concluded that true the direction of the Indonesia is North West, its value is about 294 degrees.
Additional added :
- Remember! that the value of North latitude and East longitude is positive and the value of South latitude and West longitude is negative. Visit Spherical Earth System.
- In the trigonometry formula above use Cotangen formula, if you using a calculator or excel program can use :
For Excel Atan (1/(Tan φk *......)) or Atan((Tan φk *.......)^-1)
For the Scientific calculator change "Atan" with "Shiftan".

The Change of Qibla Direction 2

In the previous article, has been described how the potential for changes qibla direction at someplace that caused by the earthquake. Visit this Link! The Change of Qibla Direction.

Now, in this article we will describe one example of the shift of coordinates that caused by the earthquake, and the changing direction of qibla. How big is it? And how big is the change?

Simulation of The Change of Qibla Direction

One of the mosques we have sampled is the Baiturrahim mosque in Ule Lheue, Aceh, Indonesia. One of the areas that was hit by the Tsunami on December 26, 2004 with a strength 9.3 Mw. The tsunami was the result of an earthquake in the Indian Ocean, which took victims from six countries : Indonesia, India, Sri Lanka, Thailand, the Maldives and Somalia.

Simulation of Tsunami 2004 in Indian Ocean
Source : Wikipedia.com

Please see some image below, these images we got from Google satellite imagery in Google Earth App, in a few different times.

Image 1 : The Capture of Baiturrahim 2004

Image 1: Satellite images taken on June 23, 2004, before the earthquake occured. in this figure there is the coordinate value of the roof of the Baiturrahim Mosque is 5˚ 33 '21.4 "N and 95˚ 17' 1.7" E.

Image 2 : The Capture of Baiturrahim 2005

Image 2 : Satellite images on January 28, 2005, images taken several months after the earthquake. the coordinates shifted to 5˚ 33 '20.67 "N and 95˚ 17' 1.61" E. coordinates shifted to the South West.

Image 3 : The Capture of Baiturrahim 2009

Image 3: Satellite image on June 16, 2009, image taken 4 years after the earthquake. The coordinates again shifted towards the North East, the coordinates are 5˚ 33 '20.97 "N and 95˚ 17' 2.22" E

Image 4 : The Capture of Baiturrahim 2010

Image 4: Satellite images on July 8, 2010, shifting South East to 5˚ 33 '20.9 "N and 95˚ 17' 2.39" E

Image 5 : The Capture of Baiturrahim 2017

Image 5 : The last image on January 29, 2017, shifting North East to 5˚ 33 '20.95 "N and 95˚ 17' 2.54" E

Latitude Shift's

Longitude Shift's

Of the drawings, the greatest shift occurred between June 23, 2004 and January 28, 2005. where between the dates there was a very large earthquake. The latitude shifts by 0.73 " to the South and longitude shifts by 0.09" to the West.

There was also a substantial shift, between January 28, 2005 and June 16, 2009, after I searched further, there was also some earthquake that occurred between that date, at Nias, Indonesia in 2005 and at West Sumatra, Indonesia in 2007. The latitude shift by 0.3 " to the North and longitude shifts by 0.61" to the East.

For the other date the shift is not too large, is between 0.05 "- 0.17", because there is no earthquake, the shift according to our, occurs caused by the shift of the earth's plate, but not too large, so it didn't cause an earthquake.

As for the qibla shift, I have calculated the direction of the qibla from some conditions with spherical algorithms calculation, can be seen from the following table:

Qibla Direction Shift's

The shifting direction of the qiblah that happened was very small, and almost no effect, less than 0.5". The 0.5" impact was caused by the tsunami that occurred on December 26, 2004. Then the impact of the Nias and West Sumatra earthquakes was less than 0.3", while in other condition, the qibla direction shifted less than 0.2" .

A shift in the direction of qibla is very possible, although the shift is very small, but it should be checked regularly, because if the slight shift is repeated several times it will produce a big shift.

Visit this link for the previous discussion. The Change of Qibla Direction 1

The Change of Qibla Direction

Is it possible to change the direction of qibla ? may be. the direction of qibla still facing the Ka'ba in Mecca, but the direction that will shift. qibla direction may occur, this is caused by a shift in the earth's plate, or earthquake.

Source : www.emaze.com

In a study conducted by Yusfania, she explained about the shift location caused by the earthquake that occurred in Sumatra or the Indian Ocean, the study resulted in the conclusion that the earthquake that occurred in the Indian Ocean in April 2012 led to a position shift of 0.3 - 2.4 meters to North East.

This is a fact that we must accept, because if the position of a place changes, it will certainly change the coordinates of the place, and then it will have an impact on the shift in direction of the qiblah at someplace.

Earthquakes are very common, especially in Indonesia. Indonesia is a country with earthquake potential. This happens because the location of Indonesia which is the meeting center of the plates of the Earth, among others, Eurasia, the Philippines, Caroline, Indo-Australia, Pacific and several other minor plates (Hamilton: 1979). In addition, this earthquake is caused by tectonic activity of the plates. Plates it continues to move like the Eurasian and Indo-Australian plates which have an average moving northward, while the Philippine plate movements tend towards the northwest (Hamilton: 1979 in USGS: 2011). Associated with the philipine plate, the Caroline plate has a movement towards the southeast in part of Aru riverbed and towards the northwest in part of Yap riverbed (Seno: 1992 in USGS: 2011).

Therefore, in order to minimize the change of direction of the qibla at someplace, the direction of the qibla should be updated regularly. Because if the shift is collected caused by several earthquakes, then surely the impact will be great.

Renewal of the direction of the qibla should be done by experts, Islamic Astronomer, The Jurist and also Geodesy master. Intensive research should be made to the direction of the qibla at someplace that should also involve the community. So that the public knows about the facts of shifting the direction of qibla caused by a shift of the earth's plate, and for the public to be more careful.

Visit this link for the next discussion. The Change of Qibla Direction 2

Determine The Direction of Qibla with Google Earth

What's interesting about Google Earth? Of course a lot. For the layman, Google Earth is often used to look at photos of his house, or hometown through space. Of course it's nice to see his hometown clearly visible through Google Earth. Everyone in the world will be able to see it. But not the least disappointed, his hometown was not visible at all, whether it is covered by cloud or satellite has not updated the image.

But different from the astronomers. Google Earth is also usually used by them. The ability of Google Earth to identify the surface of the Earth and define it with the value of latitude and longitude make Google Earth useful as a pointer coordinate of a place and determining the direction of Qibla in some places.

How to find the coordinates and direction of Qibla?, Let's see the following explanation! Previously downloaded Google Earth software first! visit this link! Download.

Looking for coordinates somewhere.
1. Go to Google Earth
2. Search the city name in the search field
3. Move the pointer or mouse to where to look for the coordinates
4. See the coordinate values ​​at the bottom of the screen

Examples of searching for the coordinates of Istiqlal Mosque, Jakarta, Indonesia and Ka'ba, Mecca, Saudi Arabia:

Coordinate of Istiqlal, Jakarta, Indonesia

Coordinate of Ka'ba, Mecca, Saudi Arabia.

Looking for a Qibla direction somewhere
1. Open Google Earth
2. Find the place to search for the direction of the Qibla, also look for the Ka'ba.
3. Move to place area (place to search direction of Qibla)

4. Press the "ruler" button

5. Click on the area of ​​the mosque and drag the line to the ka'ba

6. Move to the place area again

7. see the results, we can also see the value of the azimuth Qibla in the column.

Good luck!

Islamic Astronomy Software : Digital Falak

Android is a linux-based operating system for mobile phones such as smartphones and tablet PC. Android provides an opensouce platform for developers to create their own applications for use by a variety of mobile devices.

Android already has some changes starting from android version 1.1 to the current android version 7.0. Of course with the development and improvement of android, the users were involved to develop various applications, both for personal and public purposes.

Android development is also up in the field of Islamic Astronomy. The "Digital Falak" app is one of the applications of Islamic Astronomy based on android, created by Ahmad Tholhah Ma'ruf published in the Playstore. The application is made in 2012 but in 2014 this new application is released. And in the middle of 2015 this app is officially uploaded in Playstore and can be used by many people especially for android users. Download this app in Playstore or in Digital Falak Web
.

Digital Falak Icon

Digital Falak contains several programs, there is Prayer Time, Qibla Compass, Hijri Calendar, Location Data, and Istiwak Time.

Local Prayer Time and Masehi Calendar

• Prayer Time.
Prayer Time in this application displays some data that is: the time of salat Zuhr, Asar, Magrib, Isha, Imsak, Dawn (Fajr), Thulu, and Duha. Available in 2 time, local time and istiwak time. We can also adjust the criteria and ihtiyath time in the setting menu. The prayer time in this application also has the alarm for remember us to do pray.

Istiwa Prayer Time and Hijri Calendar

• Hijri Calendar
The Hijri calendar in Digital Falak uses the two-book method of making it by using "Fathu al-Rouf al-Manan" and "Nurul anwar". Users just choose which books to use in the settings menu. there is also Masehi/public Calendar

Qibla Compass and Rashdul Qibla Calculation

• The Qiblah Compass
The Qiblah compass is quite easy to understand especially for who do not know the calculation of the Islamic Astronomy, because in it already has a Qibla Compass program, the direction shown by the compass will face the qibla, but this application has a weakness, because the base of the compass using magnetic sensor, then this application is very influential with the magnetic force that surrounds the user.
The Qibla Compass feature also requires magnetic sensors, so for mobile devices that do not have magnetic sensors can not use this feature. Instead there is also a feature Rashdul Qibla calculation, the calculation of the time where the shadow of the Sun will face the qibla.

Location Data Menu

• Location data
Location data in digital falak can be used to find the latitude, longitude, height of place, time zone and place name according to the position in GPS. This data is always updated and can also update by using the internet after the phone is connected to the internet.

This application also there is a version of the website, we will discuss in the next article.

Calculation of Qibla Direction for Indonesian Places

Indonesian Map's

Indonesia is located on the east of the Ka'ba, and is in the south of the Ka'ba, so in logical direction, the direction of the qibla in Indonesia leads to the North West. there are some data that must be searched first to calculate the direction of qibla, that is:

1. Latitude of Ka'ba (φk)
2. Longitude of Ka'ba (λx)
3. Latitude Place (φx)
4. Longitude Place (λx)

For Latitude and Longitude data Ka'ba is usually constant / fixed, but some people vary in its determination, one of the Ka'ba coordinate value ​​used is 21˚ 25 ' 21,01" N and 39˚ 49' 34,33" E. For coordinate data for the place can be searched with various tools, such as GPS. visit this link. Determine Coordinate with GPS.

This calculation uses the assumption that the Earth is a sphere, so this way using the Spherical Algorithm theory. The steps must be taken as follows:

1. Finding the longitude difference (λd) with the formula : λd = (λx - λx).
2. Finding the qibla direction angle (QD) with the formula: Cotan QD = Tan φk * Cos φx / Sin λd - Sin φx / Tan λd.
3. Then finding qibla azimuth value (QA) with the formula: QA = 360 - QD

Average Qibla Azimuth of Indonesia

The direction of the Qiblah that we count, measured from the True North clockwise to the value of the azimuth angle. For the example calculations will be discussed at the next session.

Introduction to Islamic astronomy (Falak)

Falak (Orbit)

Source : bbc.co.uk

The definition of Islamic astronom (Falak) according to language means orbit, whereas according to the term, Falak is a science, the science that discusses the astronomical conditions of celestial bodies associated with Islamic Shari'a. There are 4 scopes in the study of Islamic astronomy :

1. Qibla direction = discuss the Islamic Shari'a on liability facing the Qiblah while praying, even when not only praying but also when slaughtering sacrificial animals and when burying. To know the direction of the Qiblah can be traced with the science of Islamic astronomy in the discussion of the various directions on the surface of Earth that is experienced from geodesy science. visit this link to know what the Rules of Facing The Qibla.

2. Time of Salat = discusses the obligation to perform the prayers in due time. To know the time of prayer is also required Islamic astronomy science that is experienced from the science of the spherical trigonometry  in the discussion of the daily movement of the Sun's pseudo Earth, visit this link to know what the Prayer Times Marker.

3. The first lunar month = this discussion started from the obligation to perform fasting during Ramadan, when will Ramadan come ?, in this case we can know with Islamic astronomy that discusses the Crescent Moon Phase on the surface of the Earth, The phase is influenced by the circulation of the Earth against Sun, because the light of the Moon comes from the Sun, so the Moon as the Earth's natural satellite reflects light from the sun that directly fell to Earth.

4. Eclipse = this discussion also started from the Islamic Shari'a regarding the extinction in praying during the eclipse, when will the eclipse happen ?. In this case we can also know when the eclipse occurred with Islamic astronomy that discusses the phase of conjunction and opposition of the Sun, Earth, Moon in a straight line.

Islamic astronomy is not as difficult as it is in our minds. Islamic astronomy is fun! It has become one of the most rare sciences of today. Indeed seen by the eyes of astronomy more advanced knowledge, but it is a modern astronomy. Not Islamic astronomy. Rarely anyone learns this science, when in fact this science is very important because it is needed in the religion of Islam.

Accurate Times

The Accurate Times application is a well-known application amongst the astronomers, this software is made by Mohammad Syawkat Audah. In this application there are several calculation programs, such as the program of Salat Time, Moon and Moon Setting program, Moon Phase, Hilal Visibility, Sun Ephemeris program, Hijriah-Masehi (Lunar-Sun) Calendar, Qibla Direction and also Solar and Moon position guidance program for telescope operation.

This application was originally a prayer time application adopted by the Jordanian Ministry of Religious Affairs for the early determination of the prayer time in Jordan, but at a later stage it developed to the point of calculating the conversion of the Hijriah-Mashi-Hijri date and the determination of the beginning of the continuing month on the visibility of the new moon .

The front view of the Accurate Times application

One of these in-app programs that reflects his thoughts is the Crescent Visibility or Visibility Hilal program the author has described in the previous chapter.

Crescent Visibility program display in the Accurate Times application

In this program provided several options for the determination of criteria:
- Waxing / Waning Crescent
This option is used to select the object we will look for visibility, whether young moon or old moon.
- Calculations
This option is used to select the basic reference of calculation, whether the calculation based on the geosentric point that will produce the essential moon, or from the surface of the earth (Toposentric) that will produce the hilal mar'i.
- Day of Calculations
This option is used to determine the state of visibility, at day of intent, 1 day or 2 days after.
- Time of Calculations
This option is used to select the visibility reference time, at sunset, when the Moon is set, or when the Best time, which is one of Mohammad Odeh's formulas also that the author has described in the previous discussion.

Map of Hilal Accurate Times Visibility

The above picture is the moon visibility map of the Beginning Moon of Shawwal 1438 in the Accurate Times application with youthful hilal, topocentric hilal, hilal on the day of ijtimak and hilal at best time.

Visit this link to download it. Download

Advantages and Disadvantages of Handheld GPS

Advantages and Disadvantages of Handheld GPS

Actually there are many types of GPS, not just handheld / portable GPS, but also GPS Navigation and GPS Smartphone. For the first of these I will discuss in advance about the GPS handheld, and now I will explain the advantages and disadvantages of GPS handheld.

Handheld GPS

GPS handhelds have a high sensitivity in receiving GPS signals and some devices are capable of receiving dual satellite systems from GPS and Glonass. We can also determine the height of place and direction in an area with satellit signal, there are also various additional sensors, for example barometric altimeter and electronic compass so that the determination of height and direction can be done without using satellite signal. This is usually an option in the settings.

The use of barometric altimeter sensors usually must first be done altitude calibration somewhere. We can also use this barometric altimeter to plot air or ambient pressure from time to time, which can help to observe changes in weather conditions.

The advantage of this GPS compass is that it is not influenced by the magnetic field and can guide the direction accurately as it is guided by signals from the satellites (not the buit-in compass sensor). This tool is certainly very helpful when measuring the direction of Qibla.

The area is remote with no phone signal and does not have internet. We recommend choosing a handheld GPS device. Maps are already stored inside, though the images are very standard, such as the appearance of road maps and soil contours, the data maps in the handheld GPS more complete, but usually sold separately (for each country) and the price is quite expensive. Maps do not need to be installed or downloaded. Because portable GPS has been installed one country map when marketed.

GPS handheld is better, more durable, waterproof and suitable for outdoor activities. Users need not be afraid of the natural conditions, because handheld GPS devices or portable GPS are designed for nature activities. Using this GPS we can find the way when through high-sensitivity wilderness, which acquires satellite signals quickly and tracks locations in challenging conditions such as trees and cliffs.

The battery can be replaced because it uses AAA batteries. One portable GPS device can last up to 25 hours. Very suitable for adventure activities in areas far from electrical energy.

But the obstacle, GPS handheld in terms of price is still quite expensive, for a GPS device ranges between Rp. 2,000,000.00 to Rp.10.000.000,00 or about $ 150 USD to $ 750 USD.

The disadvantages of all GPS, including GPS handhelds are GPS will greatly affect the geographical conditions of where we are. GPS will work well if where we are still has a wide sky. The following will be described wherever the GPS will experience a weakness in its use:

1.When someone is in the forest. With the conditions of the trees are so much then the signals that can be received will be a little maybe even no depending on the width of the forest.
2.When someone is in the water or when someone is diving. Do not expect to use this tool when diving.
3. Electronic devices that can emit electromagnetic waves may affect performance degradation rather than GPS.
4. Buildings. Not only when inside the building, being between 2 tall buildings will also cause an effect like being in a valley.
5. Signals that bounce, eg when in between high-rise buildings, can disrupt the calculation of navigation tools so that navigation tools can indicate the wrong position or not accurate.
6. Glass film car, especially metal-containing.