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Payroll system with Biometrics Essay

Chapter i
introduction
Weather forecasting is Prediction of the weather through application of the principles of physics and meteorology. Weather forecasting predicts atmospheric phenomena and changes on the Earth’s surface caused by atmospheric conditions (typhoons, floods, giant waves, and high seas). The City of Olongapo (Tagalog: Lungsod ng Olongapo; Sambal:  Syodadnin Olongapo) is an independent highly urbanized city located in the province of Zambales, Philippines. According to the latest census, it has a population of 258,817 people in 57,515 households. Along with the town of Subic, it comprises the Metro Olongapo, one of the twelve metropolitan areas in the Philippines.

The Online Geographical Live Forecasting System of Olongapo City is to provide protection of life and property against natural hazards due to typhoons, floods, giant waves, and high seas. To utilize scientific knowledge and information as an effective instrument to ensure the safety, economic security and improve the quality of life of all the people and the environment.

The proposed system provides a user friendly website that helps the citizens view weather and flood conditions, latest news and information, and a scalable map of olongapo city. Due to the problem of low-lying areas suffering from floods because of relatively heavy downpour the system shall also provide color coding indicators to monitor flood conditions and users can also view these specific risk areas via cctv camera. The Closed-circuit Television cam is used to monitor and transmit signals from a specific place, on a limited set of monitors.

CCTV’s are connected to the website for public viewing, to provide a service to customers, to be updated of the latest weather forecast from time to time. Wireless cameras do not require a video cable for video/audio transmission, simply a cable for power. Wireless cameras are also easy and inexpensive to install.

Previous generations of wireless security cameras relied on analog technology; modern wireless cameras use digital technology which delivers crisper audio, sharper video, and a secure and interference-free signal. Integrated systems allow users to connect remotely from the internet and view what their cameras are viewing remotely.

The proposed system indicates the color of danger rainfall and flood warning system. “Yellow warning” represents 7.5-15 mm rain in an hour which could also cause flooding. “Green warning” stands for 15-30 mm rain in an hour that is also expected to continue within the next two hours. At this point, low-lying areas are expected to suffer from floods because of relatively heavy downpour.

The memorable Typhoon Pedring (Nesat), which hit the country on September 27, 2011, fell within the green warning range as it had a recorded rainfall of about 15-25 mm per hour “Red Warning” More than 30 mm rain observed in 1 hour and expected to continue in the next 2 hours. Serious flooding expected in low-lying areas. Think about the amount of rain at Typhoon Ondoy’s (Ketsana) peak when it hit the country on September 26, 2009.

STATEMENT OF THE PROBLEM
The main problem of this research is that people are searching for an easily accessible website that will help them to inform about current weather and flood forecast and also to locate recent disasters happening within the area of Olongapo City.

1. How will the citizens view latest news about weather and flood conditions of Olongapo City?

2. How will the system update information about the cancellation of classes of the students and works of employees, signal level of possible typhoon, and the specific areas of evacuation center?

3. How will the system monitor the Specific risk areas within Olongapo City?

4. How will the proposed system inform the citizen of Olongapo City about the danger rainfall and flood warning?

5. How will the website be accessed in case of power outage or unavailability?

OBJECTIVE OF THE STUDY
The main objective of this research is to find an Information Technology
Solution that will cater the needs of the citizens of Olongapo City during calamities like typhoons and flooding. The IT Solution must be able to present an online geographical with live forecasting system to update the users during calamities. 1. To develop a system that broadcast latest updates on the weather and flood conditions of Olongapo City.

2. To develop a system that synchronizes the information from other weather forecasting sites that will display text information below the proposed system’s map interface about the cancellation of classes and works of employees, typhoon signal level, and evacuation center areas of Olongapo City.

3. To develop a system that can monitor the specific areas of Olongapo using CCTV cameras installed in calamity prone areas and by watch live videos through online.

4. To include flood warning indicator via color coding such as: A.)
Red Warning: More than 30 mm rain observed in 1 hour and expected to continue in the next 2 hours. Serious flooding expected in low-lying areas. Response: Evacuation

B.)
Green Warning: 15-30mm (intense) rain observed in 1 hour and expected to continue in the next 2 hours. Flooding is threatening. Response: Alert for possible evacuation

C.) Yellow Warning: 7.5-15mm (heavy) rain observed in 1 hour and expected to continue in the next 2 hours. Flooding is possible. Response: Monitor the weather condition

5. To provide a one-time registration to receive regular updates from PAGASA via SMS.

SCOPE AND LIMITATION

SCOPE

1. The proposed system focuses on the update of the weather and flood condition of Olongapo City. 2. Flood forecasting via CCTV camera.
3. Time to time latest conditions 24/7 update.
4. The system will provides online mapping to view specific areas within barangay’s of Olongapo City. 5. Broadcast information of the weather and flood conditions to the website interface. 6. The system will display all the information on cancellation of classes and office work within the area of Olongapo City. 7. Subscribing to PAGASA for Updates via SMS.

LIMITATION

1. The proposed system only covers the areas within Olongapo City. 2. The system can only broadcast weather and flood conditions within the areas of Olongapo City. 3. The proposed system will only Monitor Bridges, Rivers and selected Hazard prone Areas of Olongapo City.

4. The proposed System is Manually Updated and Handled by an Administrator. 5. The proposed system will be using a PoE network camera.

LOCALE OF THE STUDY

Subic Bay International Airport Weather Station
Figure 1.0 Locale of the Study

Located at Operation Bldg. 8050 Argonaut Highway Subic Bay Freeport Zone Philippines Managed by Mr Joselito F. Meredor, Chief Meteorological Officer.

SIGNIFICANCE OF THE STUDY
1. Police. The system helps them to monitor the conditions of the specific area of Olongapo and helps to monitor and record videos when problems happened, to respond and helps them from time to time.

2. Rescue Team. The system can monitor the flood conditions by using color
coding warning updates. It helps them to know if the specific area’s or barangay’s are needed to evacuate immediately to protect the citizen of Olongapo City during flood.

3. Citizens of Olongapo City. The materials in this web page will compile and simplify to help our viewers and readers gain a better understanding of the information disseminated and services offer by the proposed for the citizens of Olongapo City. This web page aims to provide its viewers and readers insight on the dynamics of the weather which changes on a daily basis and of the climate which changes over a greater period of time.

4. Future Researchers. The Future Researchers will benefit from the information that the proponents have gathered as well as the technical issues that the Future Researcher will need on the project that they are developing, this research is available also for future enhancement if the Future Researcher will be adopting this research.

CHAPTER II
REVIEW OF RELATED LITERATURE
Related Literature
Vainikka (2012) Emphasizes that “Regions have been regarded as processes, artefacts and discourses, and recently as ‘brands’ that various stakeholders use in marketing. Discourses on institutional regions are typically promoted by media, governmental bodies and planning organizations that draw on reputed collective regional identities—the expressions of past and current social discourses and cultural practices.

However, such institutional regional discourses are often incongruous to spatial imaginaries of everyday life. This article scrutinizes the meanings of spatial attachment to citizens and explores to what extent regional identities are meaningful in everyday life.

To avoid biased assumptions, focus-group interviews were carried out within four Finnish provinces among the members of four social movements. The results show that provincial spaces are not actively thought-and-practiced. Spatial identities are rather structured around personal experiences that typically accumulate in several locales, since personal histories are increasingly characterized by mobility.

This article also recognizes that the everyday meanings of a socially constructed region are often generationally read and combine different historical narratives.” Manning (2012) Studied that “Atmospheric electricity, which explained thunder and lightning, was discovered by Benjamin Franklin and the classification of cloud types by Luke Howard, see attached photographs, helped further develop the science of meteorology.

Irishman, Admiral Beaufort’s observable wind scale of 1-10 with 1 calm and 10 trees bending in a gale force wind remains in use today. Surface weather data collection methods, kite flying to collect upper atmosphere weather data along with telegraphty to transmit data and synoptic meteorology facilitated rapid analysis and transmission of available weather data to enable accurate weather forecasting.”

Fetty (2012) Today, Warning Coordination Meteorologists in 122 National Weather Service offices across the United States coordinate with over 290,000 trained volunteers to report weather conditions on the ground in real time. SKYWARN is a collaboration between the National Weather Service (NWS) and amateur storm spotters.

All SKYWARN spotters are volunteers trained by National Weather Service personnel. When hazardous weather threatens their community, SKYWARN spotters form a communications network, reporting current weather conditions and helping the National Weather Service track the behavior of developing storms.

Heckert (2008) According to his studies “In addition to his better known Ptolemaic system of astronomy, Ptolemy made very important contributions to geography. Ptolemy’s geography builds on previous workers, particularly Eratosthenes and Hipparchus. Ptolemy also added original contributions. We mark locations on Earth with the latitude and longitude grid system.

Ptolemy did not invent the idea of a grid system for locations. He did however improve the system that was handed down to him. Ptolemy coined and popularized the words longitude and latitude. Ptolemy also originated the modern map making custom of placing east on the right and north at the top.”

Edgar (2009) Emphasizes that “Scientists at the Massachusetts Institute of Technology Center for Global Change Science Modelling Initiative have created maps of possible changes in global precipitation for climate change scenarios. While these are based on future “what if” situations, they pose very real possibilities for ecological change due to changes in precipitation.

Temperature and precipitation are two factors that could greatly alter the nature and location of global ecosystems.” Fleury (2011) Studied that “the earliest sign of potential hurricanes is detected by satellite. The Geostationary Operational Environmental Satellites (GOES) measure wind direction, atmospheric temperature, potential rainfall, sea surface temperature, cloud depth and movement.

The scientists on board the reconnaissance aircraft release a capsule called a dropsonde. It contains instruments to measure air pressure, humidity and temperature. The capsule also contains a radio transmitter and a small parachute to slow down the fall. Data is transmitted to computers located at the weather offices on land.” McFarlane (2010) Emphasizes that “Unlike an investment in machinery or production equipment, the returns on a CCTV surveillance system investment aren’t easily quantifiable, but with the increasing levels of crime in some areas, improving security measures has become a more pressing concern for home owners and businesses alike.

Traditionally, CCTV surveillance systems use a bank of VHS recorders to store video feeds, but with the advent of digital recorders, there are more options available for reducing the number of storage devices that are used, and DVRs (digital video recorders) are able to record at much higher resolutions than VHS recorders, which makes the identification of suspects much easier for security personnel and investigators. In addition, they can be scheduled to record at certain time intervals, or only when motion is detected, thus reducing the amount of media that is needed to store the recordings, while at the same time recording higher resolution video footage from the security cameras.”

Read (2010) States that “surveillance can be traced back as far as the Egyptians who kept population records for purposes such as taxation, military service and immigration. However, in modern times state surveillance has become more that just population records, it has reached into every aspect of society, and information about individuals is collected when using a bank machine, making a phone call, applying for sickness benefits, driving a car, using a credit card, etc.

The reason state surveillance has been able to become so widespread and pervasive is due to the development of new Information & Communication Technologies (ICTs) and specifically the computer. With new ICT development all the time it is becoming easier and cheaper to monitor individuals on the street, on their computers, on the phone and at work.”

Related Studies
Meredor(2012) Stated that “PAGASA provides protection of life and property against natural hazards due to typhoons, floods, drought, giant waves, and high seas. Weather Data is collected via satellite, radar now casting, runway sensors, and meteorological aerodome report. The Broadcasting of information from manila to here at SBIAWS(Subic Bay International Airport Weather Station) can be viewed in our website or heard from Radio stations that contact PAGASA” Cheng (2011) Analyzed “The urban environment has been dramatically changed by artificial constructions.

How the modified urban geometry affects the urban climate and therefore human thermal comfort has become a primary concern for urban planners. The present study takes a simulation approach to analyze the influence of urban geometry on the urban climate and maps this climatic understanding from a quantitative perspective. A geographical building database is used to characterize two widely discussed aspects: urban heat island effect (UHI) and wind dynamics.

The parameters of the sky view factor (SVF) and the frontal area density (FAD) are simulated using ArcGIS-embedded computer programs to link urban geometry with the UHI and wind dynamic conditions. The simulated results are synergized and classified to evaluate different urban climatic conditions based on thermal comfort consideration. A climatic map is then generated implementing the classification.

The climatic map shows reasonable agreement with thermal comfort understanding, as indicated by the bio meteorological index of the physiological equivalent temperature (PET) obtained in an earlier study. The proposed climate mapping approach can provide both quantitative and visual evaluation of the urban environment for urban planners with climatic concerns.

The map could be used as a decision support tool in planning and policy-making processes. An urban area in Hong Kong is used as a case study.” Shen (2012) Shows that “Recently, it has become easier to access climate data from satellites, ground measurements, and models from various data centers. However, searching, accessing, and processing heterogeneous data from different sources are very time-consuming tasks.

There is lack of a comprehensive visual platform to acquire distributed and heterogeneous scientific data and to render processed images from a single accessing point for climate studies. This paper documents the design and implementation of a Web-based visual, interoperable, and scalable platform that is able to access climatological fields from models, satellites, and ground stations from a number of data sources using Google Earth (GE) as a common graphical interface. The development is based on the TCP/IP protocol and various data sharing open sources, such as OPeNDAP, GDS, Web Processing Service (WPS), and Web Mapping Service (WMS).

The visualization capability of integrating various measurements into GE extends dramatically the awareness and visibility of scientific results. Using embedded geographic information in the GE, the designed system improves our understanding of the relationships of different elements in a four-dimensional domain.” Thrift (2009) States that “ap interaction represents an important development in the functionality and power of geographic representations. The addition of interactivity has the potential to circumvent many of the frustrating limitations of cartography, primarily the necessarily limited perspective of the cartographer.

Static maps are the result of a long series of subjective choices of the cartographer, but with the addition of interactivity, many of those choices are offloaded onto the map user, who can customize the map in order to better suit his or her needs. Cartographers, whose role has traditionally been the optimal representation of geographic data, now face an additional role of providing the means for responsible and advantageous interaction. This article summarizes the many different ways that interaction on maps can facilitate geographic understanding and increase the functionality of maps.

It presents a systematic approach to thinking about interaction that can inform future designs, reviews existing approaches to interacting with modern computer maps (e.g., GIS and Google Earth), and speculates about technological advances of the future that may require a significant rethinking of the nature and uses of interaction in cartography.”

Adger (2007) Studied that “Climate change is increasingly been called a ‘security’ problem, and there has been speculation that climate change may increase the risk of violent conflict. This paper integrates three disparate but well-founded bodies of research – on the vulnerability of local places and social groups to climate change, on livelihoods and violent conflict, and the role of the state in development and peacemaking, to offer new insights into the relationships between climate change, human security, and violent conflict. It explains that climate change increasingly undermines human security in the present day, and will increasingly do so in the future, by reducing access to, and the quality of, natural resources that are important to sustain livelihoods.

Climate change is also likely to undermine the capacity of states to provide the opportunities and services that help people to sustain their livelihoods. We argue that in certain circumstances these direct and indirect impacts of climate change on human security may in turn increase the risk of violent conflict. The paper then outlines the broad contours of a research programmer to guide empirical investigations into the risks climate change poses to human security and peace.”

Escobar (2001) Emphasizes that “The last few years have seen a resurgence of interest in the concept of place in anthropology, geography, and political ecology. “Place” — or, more accurately, the defense of constructions of place — has also become an important object of struggle in the strategies of social movements.

This paper is situated at the intersection of conversations in the disciplines about globalization and place, on the one hand, and conversation in social movements about place and political strategy, on the other. By arguing against a certain global centrism in the disciplines that tends to effect an erasure of place, the paper suggests ways in which the defense of place by social movements might be constituted as a rallying point for both theory construction and political action.

The paper proposes that place-based struggles might be seen as multi-scale, network-oriented subaltern strategies of localization. The argument is illustrated with the case of the social movement of black communities of the Pacific rainforest region of Colombia.”

Till (2012) Shows that “Wounded Cities, focuses on creative practices and politics in Bogotá, Cape Town, Berlin, Minneapolis, and Roanoke, cities in which settlement clearances have produced spaces so steeped in oppression that the geographies of displacement continue to structure urban social relations. Precisely in and through these ‘wounded cities’, residents, artists, educators, and activists reconsider the meanings of the ‘right to the city’ and to theorizing the city more broadly.

Drawing upon ethnographic research and theories from postcolonial theory, social psychiatry, social ecology, feminist political theory, and art theory, I introduce my concepts of ‘wounded city’, ‘memory-work’, and a ‘place-based ethics of care’ to retheorize urban politics. Artists and residents in wounded cities encourage political forms of witnessing to respect those who have gone before, attend to past injustices that continue to haunt contemporary cities, and create experimental communities to imagine different urban futures.

I argue that a deeper appreciation of the lived, place-based experiences of inhabitants of most cities would enable planners, policy makers, and urban theorists to consider more ethical and sustainable forms of urban change than those that continue to legitimate disciplinary forms of govern mentality” Taylor (2002) Studied that “The occurrence of water-induced disasters is a regular phenomenon in Bangladesh. Reducing the magnitude of damage by floods to life and property and minimizing environmental impacts has been the major concern of disaster management activities in Bangladesh.

Due to the complex nature of the river systems and their hydrological/hydraulic characteristics, the tasks of predicting the propagation of floods and planning and designing mitigation measures are quite difficult. However, recently, use of mathematical models has been found to be very promising in building the flood-preparedness system: studying the processes of flood disasters and evaluating alternative mitigation measures, both structural and non-structural. An overview of the mathematical models developed and applied to study and predict floods in Bangladesh is presented. Emphasis is given to real-time flood forecasting and warning.”

Crisci (2006) Shows “The aim of this study was to evaluate the relationship between hot weather conditions and hospital admissions due to work-related accidents in Tuscany (central Italy) over the period 1998-2003. Apparent temperature (AT) values were calculated to evaluate human weather discomfort due to hot conditions and then tested for work accident differences using non-parametric procedures. Present findings showed that hot weather conditions might represent a risk factor for work-related accidents in Italy during summer.

In particular early warming days during June, characterized by heat discomfort, are less tolerated by workers than warming days of the following summer months. The peak of work-related accidents occurred on days characterized by high, but not extreme, thermal conditions. Workers maybe change their behavior when heat stress increases, reducing risks by adopting preventive measures.

Results suggested that days with an average daytime AT value ranged between 24.8°C and 27.5°C were at the highest risk of work-related accidents. In conclusion, present findings might represent the first step for the development of a watch/warning system for workers that might be used by employers for planning work activities.”

Stewart (2007) Studied that “Although the meteorological community has a wealth of information about forecast uncertainty available, it currently provides users with primarily deterministic forecast information. Creating and disseminating forecast products that effectively communicate uncertainty could help users make better decisions based on their own circumstances and thresholds for action, resulting in socio-economic benefits.

Moreover, Pielke and Carbone (2002) discuss the weather forecast process as consisting of three parallel sub processes-prediction, dissemination, and use in decision-making. They stress that the common task of the weather forecast process should be viewed as producing good decisions. Although not explicitly called for by Pielke and Carbone, uncertainty-explicit forecasts can play a role in improving this process. Additional reasons for providing weather forecast uncertainty information are to establish and retain user confidence and to avoid m is representing the capabilities of weather prediction science.”

Aginako (2009) Relates “The Basque Meteorology Agency is conducting an initiative to improve the collection, management and analysis of weather information from a large array of sensing devices. This chapter presents works carried out in this context proposing the application of 3D geographical visualization and image processing for the monitoring of meteorological phenomena.

The tools described allow users to analyze visually the state of the atmosphere and its interaction with the topography, and process live outdoor images to automatically infer weather conditions. This kind of systems can be applied in the surveillance of other environmental events and enable better decision making for several purposes, including important issues related with environmental security.”

SUMMARY
Based on Related literature and Studies of the proposed system Online Geographical Live Forecasting of Olongapo City the following ideas helped us researchers to use different solutions like ideas of Heckert saying that marking locations on Earth with the latitude and longitude grid system based on Ptolemy’s research and also using the modern map making custom of placing east on the right and north at the top. McFarlane researched that in investment in machinery or production equipment, a CCTV surveillance system investment aren’t easily quantifiable, but with the increasing calamities in some areas, improving security measures has become a more pressing concern for home owners and businesses alike.

A CCTV surveillance systems uses a bank of VHS recorders to store video feeds, but with the advent of digital recorders, there are more options available for reducing the number of storage devices that are used, and DVRs (digital video recorders) are able to record at much higher resolutions than VHS recorders, which makes the identification of suspects much easier for Monitoring and investigating areas within Olongapo City. In addition, they can be scheduled to record at certain time intervals, or only when motion is detected, thus reducing the amount of media that is needed to store the recordings, while at the same time recording higher resolution video footage.

On Shen’s studies his paper documents the design and implementation of a Web-based visual, interoperable, and scalable platform that is able to access climatological fields from models and ground stations from a number of data sources using Google Earth (GE) as a common graphical interface. The development is based on the Web Processing Service (WPS), and Web Mapping Service (WMS). The visualization capability of integrating various measurements into GE extends dramatically the awareness and visibility of scientific results.

In Relation to our study, we will implement all possible solutions to help us to better construct the proposed web based system and we will be also be collecting all current data about the weather within Olongapo City with the help of different organizations that study weather patterns such as PAGASA and with the help of Olongapo City’s Municipal Center to help implement our proposed web based system.

CHAPTER III
TECHNICAL BACKGROUND

Definition/Usage
Google Chrome

Google Chrome is a freeware web browser developed by Google that uses the WebKit layout engine. It was released as a beta version for Microsoft Windows on September 2, 2008, and as a stable public release on December 11, 2008. As of November 2012, according to StatCounter, Google Chrome had 35% worldwide usage share of web browsers making it the most widely used web browser. Net Applications, however, indicates that Chrome is only third when it comes to the size of its user base, behind Internet Explorer and Firefox. Microsoft Office 2010

Microsoft Office is an office suite of desktop applications, servers and services for the Microsoft Windows and OS X operating systems, introduced by Microsoft on August 1, 1989. Initially a marketing term for a bundled set of applications, the first version of Office contained Microsoft Word, Microsoft Excel, and Microsoft PowerPoint.

Over the years, Office applications have grown substantially closer with shared features such as a common spell checker, OLE data integration and Microsoft Visual Basic for Applications scripting language. Microsoft also positions Office as a development platform for line-of-business software under the Office Business Applications brand. Office is reported to now be used by over a billion people worldwide.

Adobe Photoshop Cs4

Adobe Photoshop is a graphics editing program developed and published by Adobe Systems. Adobe’s 2003 “Creative Suite” rebranding led to Adobe Photoshop 8’s renaming to Adobe Photoshop CS. Thus, Adobe Photoshop CS6 is the 13th major release of Adobe Photoshop.

The CS rebranding also resulted in Adobe offering numerous software packages containing multiple Adobe programs for a reduced price. Adobe Photoshop is released in two editions: Adobe Photoshop, and Adobe Photoshop Extended, with the Extended having extra 3D image creation, motion graphics editing, and advanced image analysis features. Adobe Photoshop Extended is included in all of Adobe’s Creative Suite offerings except Design Standard, which includes the Adobe Photoshop edition.

Wirecast 4.2.3

Wirecast from Telestream is a live video streaming production tool that allows Mac and Windows users to create live or on-demand broadcasts for the web. Wirecast works like a video switcher, controlling real-time switching between multiple live video cameras, while dynamically mixing in other source media, such as QuickTime movies, music, audio and slides to create professional broadcast productions for live or on-demand distribution on the web.

Xampp

 Xampp is a free and open source cross-platform web server solution stack package, consisting mainly of the Apache HTTP Server, MySQL database, and interpreters for scripts written in the PHP and Perl programming languages.

Officially, XAMPP’s designers intended it for use only as a development tool, to allow website designers and programmers to test their work on their own computers without any access to the Internet. To make this as easy as possible, many important security features are disabled by default. In practice, however, XAMPP is sometimes used to actually serve web pages on the World Wide Web. A special tool is provided to password-protect the most important parts of the package. Wowza Media Server

Wowza Media Server is unified server software developed by Wowza Media
Systems. The server is used for streaming of live and on-demand video, audio, and RIAs (rich Internet applications) over public and private IP networks to desktop, laptop, and tablet computers, mobile devices, IPTV set-top boxes, internet-connected TV sets, and other network-connected devices.

The server is a Java application deployable on the following operating systems: Linux, Mac OS X, Solaris, Unix, and Windows. Wowza Media Server can stream to multiple types of playback clients and devices simultaneously, including the Adobe Flash player, Microsoft Silverlight player, Apple QuickTime Player and iOS devices (iPad, iPhone, iPod Touch), 3GPP mobile phones (Android, BlackBerry OS, Symbian, etc.), IPTV set-top boxes (Amino, Enseo, Roku, Streamit and others), and game consoles such as Wii and PS3).

Table 1.0 Technical Background

CONCEPTUAL FRAMEWORK

Figures 1.1 Conceptual Framework

The Proposed system provide a RTMP Server and a Web Server that will provide Weather Updates, Flood Warning, and A Geographical Map with clickable cameras to watch live video Streaming of Specific areas Online. With the use of this System PAGASA can now focus all announcements and weather related information within Olongapo City.

RESEARCH DESIGN
The combination of different but appropriate Qualitative and Quantitative Research methods was employed. The Descriptive Method used in conducting the research served as a great assistance in the construction of the algorithm’s design. The different methodologies applied served as guides that particularly facilitated the exploration of the study.

Descriptive Method.The proponents use the descriptive method as the basis for the proposed system. This is for the proponents to come up with reliable and accurate information that would help them to gather data and to know
that there is a need for the study to be conducted.

Tavers (1978) stated that descriptive method is a general procedure which describes the nature of a situation as it exists at the time of the study and explores the course of a particular phenomenon. It is a fact-finding research with sufficient and accurate interpretation of the findings. It describes what the result is and what actually exist such as current conditions, and practices. It is used to discover facts on which judgment could be based.

The proponents use descriptive method which is most used for gathering system requirements such as survey, interview and analyzing procedure and other related documents regarding the problems of accessibility, security, searching and retrieval of documents and information, monitoring , management of data and/or files in the manual operating system. Internet Research. The proponents also saw the use of Internet as a source of gathering information regarding on the study.

Internet Research is one way of giving the proponents valid information relating on the study. Questionnaires and Surveying. The researchers gathered information by distributing questionnaires and surveys for the following people who are involved in the proposed system. The proponents conducted a survey to the students in different curriculums and some teachers of Olongapo City National High School concerning with the library.

Interview. The proponents gathered some information with the use of an interview with the following people who’s involved in the proposed system. The proponents conducted an informal interview to one of the chief meteorological officer, Mr. Joselito F. Mirador, we ask some question regarding to the process of their respectable company. These are some of the following questions we ask for the interviewee: 1. How will the company monitor weather condition in Olongapo City? 2. How will the company broadcasting the weather update?

3. What is the existing system did the company use in monitoring weather condition? 4. What is the background of the company?

5. Possible contact person to your respectable company?

STATISTICAL TREATMENT OF DATA
The following statistical tools were employed in the analysis and interpretation of the data that will be gathered:

Percentage (%).This was used to determine the frequency and percentage distribution responses in the personal variables of the respondents.

Formula: P = f x 100

Where: % = Percentage
f = Frequency
N = Total Number of Respondents

Result of Survey
The results of the survey were discussed in this topic and the following questions answered by the respondents: A. Features
1. Providing accurate information at any given time.

Frequency of answer (f)
Percentage (%)

Very Important

26

52

Important

19

38

Neither Important or Unimportant

5

10

Unimportant

0

0

Very Unimportant

0

0

Number of Respondents (n)

50

100%

Table 1.1 Providing accurate information at any given time
52 % of the respondents say’s that having accurate information at any given time is Very Important to ensure that the system is trustworthy.

2. Online Map Interface to view and watch specific areas via cctv.

Frequency of answer (f)
Percentage (%)

Very Important

3

6

Important

10

20

Neither Important or Unimportant

29

58

Unimportant

7

14

Very Unimportant

1

2

Number of Respondents (n)

50

100%

Table 1.2 Online Map Interface to view and watch specific areas via cctv

Based on the survey 58 % of the respondent’s opinion on applying a Online Map Interface to view and watch specific areas via cctv is Neither Important or Unimportant to implement to the system due to being a minor feature.

3. Display information about cancellation of classes, works and typhoon Signal level of Olongapo City.

Frequency of answer (f)
Percentage (%)

Very Important

33

66

Important

16

32

Neither Important or Unimportant

1

1

Unimportant

0

0

Very Unimportant

0

0

Number of Respondents (n)

50

100%

Table 1.3 Display information about cancellation of classes, works and typhoon Signal level of Olongapo City

66% of the respondents for the system say that it is Very Important to Display information about cancellation of classes, works and typhoon Signal level of Olongapo City as an added feature for the system.

4. Indicate flooding with color coding warnings for each barangay on the online map.

Frequency of answer (f)
Percentage (%)

Very Important

22

44

Important

10

20

Neither Important or Unimportant

12

24

Unimportant

4

8

Very Unimportant

2

4

Number of Respondents (n)

50

100%

Table 1.4 Indicate flooding with color coding warnings for each barangay on the online map Survey shows that 44% of the respondents prefers the system to Indicate flooding with color coding warnings for each barangay for a fast and easy understanding of flood conditions.

5. Provide insight on the dynamics of the weather which changes on the daily basis.

Frequency of answer (f)

Percentage (%)

Very Important

10

20

Important

22

44

Neither Important or Unimportant

18

36

Unimportant

0

0

Very Unimportant

0

0

Number of Respondents (n)

50

100%

Table 1.5 Provide insight on the dynamics of the weather which changes on the daily basis

According to the survey conducted by the proponents, there are 44% respondents who agreed that Providing insight on the dynamics of the weather which changes on the daily basis is important.

6. Use features like Climate and Rainfall indications on the map.

Frequency of answer (f)
Percentage (%)

Very Important

3

6

Important

7

14

Neither Important or Unimportant

24

48

Unimportant

16

32

Very Unimportant

0

0

Number of Respondents (n)

50

100%

Table 1.6 . Use features like Climate and Rainfall indications on the map

48% of the respondents say’s that there is no need to put extra features on the scalable map and just focus on weather forecast broadcasting.

7. Provide information of dam levels on a weekly basis.

Frequency of answer (f)
Percentage (%)

Very Important

13

26

Important

22

44

Neither Important or Unimportant

11

22

Unimportant

4

8

Very Unimportant

0

0

Number of Respondents (n)

50

100%

Table 1.7 . Provide information of dam levels on a weekly basis

There are 44% of the respondents who agreed that it is important to provide information of dam levels on a weekly basis within the system.

8. The online map should be scallable for a better and precise view.

Frequency of answer (f)

Percentage (%)

Very Important

42

84

Important

8

16

Neither Important or Unimportant

0

0

Unimportant

0

0

Very Unimportant

0

0

Number of Respondents (n)

50

100%

Table 1.8 . The online map should be scallable for a better and precise view

84% Strongly agrees that the online map should be scalable for better view and browsing.

9. Provide information for each Barangay on the interface.

Frequency of answer (f)
Percentage (%)

Very Important

10

20

Important

16

32

Neither Important or Unimportant

9

18

Unimportant

13

26

Very Unimportant

1

2

Number of Respondents (n)

50

100%

Table 1.9 Provide information for each Barangay on the interface Based on the answers of the respondents, providing information for each barangay’s will give the system more precise and simplified delivery of gathered information.

10. Traffic Updates should also be implemented on the system.

Frequency of answer (f)
Percentage (%)

Very Important

0

0

Important

3

6

Neither Important or Unimportant

15

28

Unimportant

25

30

Very Unimportant

7

14

Number of Respondents (n)

50

100%

Table 2.0 Traffic Updates should also be implemented on the system Survey shows that it is unimportant for a forecasting site to implement a traffic update on the system for it does not relate to the system.

B. System

1. Installing CCTV cameras for Hazard Prone areas in Olongapo City.

Frequency of answer (f)
Percentage (%)

1st Priority

15

28

2nd Priority

25

30

3rd Priority

7

14

Number of Respondents (n)

50

100%

Table 2.1 Installing CCTV cameras for Hazard Prone areas in Olongapo City

Prioritizing installation of CCTV cameras on risk areas within Olongapo City will give users a visual proof on what is happening without requiring them to see it for themselves.

2. Must be accessible and available for users always.

Frequency of answer (f)
Percentage (%)

1st Priority

15

28

2nd Priority

25

30

3rd Priority

7

14

Number of Respondents (n)

50

100%

Table 2.2 Must be accessible and available for users always
Accessibility and availability is very important for a system that warns people on possible calamities, so providing a subscription provided by PAGASA via SMS is implemented to this system.

3. System should be actively online 24/7.

Frequency of answer (f)
Percentage (%)

1st Priority

15

28

2nd Priority

25

30

3rd Priority

7

14

Number of Respondents (n)

50

100%

Table 2.3 System should be actively online 24/7

The system will be running 24/7 to ensure precise and properly synchronized information about weather conditions and flood warnings for Olongapo City.

4. Synchronization of weather information with other weather centers.

Frequency of answer (f)
Percentage (%)

1st Priority

15

28

2nd Priority

25

30

3rd Priority

7

14

Number of Respondents (n)

50

100%

Table 2.4 Synchronization of weather information with other weather centers

This is very important so that the system can prove to have precise information at the same time being a compilation of data about Olongapo city’s weather conditions.

5. Easy interface controllng on the Website.

Frequency of answer (f)
Percentage (%)

1st Priority

15

28

2nd Priority

25

30

3rd Priority

7

14

Number of Respondents (n)

50

100%

Table 2.5 Easy interface controllng on the Website

The key success of a website is to ensure that it is user friendly with no difficult options for the users to access.

CHAPTER IV
SYSTEM ARCHITECTURE

Figure 1.2 System Architecture

USE CASE DIAGRAM

Figure 1.3 Use Case Diagram

Based on the diagram the System Administrator or the one that will handle the proposed system has all the privileges to do all the tasks or activities in the proposed System. The administrator is the one who can edit and maintain the proposed system.

The users can visit the website to update information about the weather and flood conditions of olongapo city and watch live streaming through online. Smart subscribers can now receive announcement and advisories thru SMS.

PROJECT CONTEXT
The research design that will be used to the study is descriptive method. Bickman and Rog (2001) suggest that descriptive studies can answer questions such as “what is” or “what was.” Experiments can typically answer “why” or “how.” The main goal of this type of research is to describe the data and characteristics about what is being studied. The idea behind this type of research is to study frequencies, averages, and other statistical calculations. Although this research is highly accurate, it does not gather the causes behind a situation. Descriptive research is mainly done when a researcher wants to gain a better understanding of a specific topic.

The Descriptive method was chosen by the researcher’s which is found suitable for the study. The researchers will be using this method because of its similarity with real life situation. In this study, the researchers use different types of descriptive methods for gathering information such as surveys, interviews, and direct information. The researchers will base on other common systems operate, conduct interviews on people using the same system.

REQUIREMENTS SPECIFICATION
For a successful implementation of the proposed system the following must be needed: Minimum Requirements
Item
Name
Price

INTEL CORE i3 540 3.06G LGA1156

P4,228

SEAGATE 1 TB 7200 SATA

P3,450

INNO 3D GT630 1GB SDDR3 128BIT

P2,325

KINGSTON 2GB DDR3 PC10600/1333

P725

ASUS P8H61-M LX B3 1155,DDR3, VGA,8CH,GLAN

P2,375

HEC COUGAR ST-500W ATX PSU

P1,695

Outdoor HD Day & Night IP Camera
DCS-7110

X8
P140,160

LG 18.5″ E1942TC LED

P4,080

A4TECH KRS-85U USB BLACK

P299

A4TECH OP-620D OPTICAL USB

P215

8CH Real Time Network Security CCTV surveillance Digital Video Recorder, standalone DVR

P2,710

Total:
P162,262
Table 2.6 Minimum Requirements

Recommended Requirements
Item
Name
Price

INTEL CORE i7 3770K 3.50Ghz LGA 1155 IVY BRIDGE

P14,095

SEAGATE 3 TB 7200 CCTV 64MB SATA

P6,870

INNO 3D GT630 4GB SDDR3 128BIT

P2,943

KINGSTON 4GB DDR3 PC10600/1333

P1,065

ASUS P8B75-M LE B75 1G VGA,HDMI,8CH,GLAN,USB3

P3,280

HEC COUGAR ST-600W ATX PSU

P2,170

Vivotek IP8352 Supreme Night Visibility 1.3MP Network Bullet Camera

X8
P208,960

LG 21.5 INCH LED MONITOR E2242C

P5,160

A4TECH N350-1/2 V-TRACK USB

P365

8CH Real Time Network Security CCTV surveillance Digital Video Recorder, standalone DVR

P2,710

Total:
P247,618
Table 2.7 Recommended Requirements

TECHNICAL FEASIBILITY
The propose system Online Geographical Live Forecasting of Olongapo City is
the online website that can be used by anyone through online. In this study it show that the main technical features both hardware and software can, in principle, provide the desired functionality or user requirements of the company and are within the current possibilities that are available in the market. ECONOMIC FEASIBILITY

Cost is one of the major problems that must be considered in making a study. For the economic condition, they usually stick to manual process to be able to keep in expenses. But giving attention to the propose system, it will provide a lot of benefits to the citizens of Olongapo CIty to help them being updated to the website from time to time during calamity, typhoon and flood in areas of Olongapo City.

Table 2.8 Name of the Software Components

TIME FEASIBILITY
This proposed system will be developed on the precise given date presented on the Gantt chart of the study. The proponents will provide a chart for scheduling their daily or weekly activities. The diagram, Gantt chart will illustrate the project schedule of the proponents.

Table 2.9 Gantt Chart
This will help the proponents to assured that they will meet the deadline in every activity that need to be done on the precise date. The Gantt chart illustrates the start and finish dates of the terminal and summary elements of a proposed system entitled Online Geographical Live Forecasting of Olongapo City.

OPERATIONAL FEASIBILITY
The proposed system will be a big help for the Olongapo CIty. The implementation of the proposed system aims to improve the broadcasting of information by using a website. It will provide a fast way of getting update information through online about the weather conditions that can save time and effort of the users. This system can fit in to the needs of the citizen of Olongapo City. The proposed system is technologically available and
technologically practical given the availability of hardware and software resources. The proposed system is operationally feasible in such way that the system will operate efficient and average computer users will find it easy to use and understand.

DESIGN

Figure 1.4 Home
The home page users can update information about the announcement that will be posted by the admin on the left side of website. They can monitor the cancellation of classes of the students, works of employees, signal level, and possible evacuation center of Olongapo City. The users also monitor the 10days weather forecast of the sites that the system synchonizing weather.com. And for the latest weather news they can call the new 24hour hotline at 433-ULAN (433-8526) or for the smart subcribers can now receive announce ment thru sms by clicking the more details for the registration procedures.

Figure 1.5 About Us
About page the users knowing and understanding the importance of the propose system by reading the whole introduction of the system.

Figure 1.6 Blog
Inside the blog users can watch live video streaming by choosing and click one from the two video streams that already installed the cameras in areas of Kalaklan Bridge and East Bajac-Bajac Bridge.

Figure 1. 7 Search

Figures 1.8 Map
Inside the map users can see the whole map of Olongapo City. If they want to watch live video streaming they can find the cameras installed in specific risk areas of Olongapo City. By clicking the camera they can see the link view live video then click this link to watch live video streaming.

The color coding flood warning was indicated to the left side of the website the procedure of knowing the difference of the colors was indicated below the map of Olongapo City.

Figure 1.9 Live Streaming Kalaklan Bridge
After the users clicked the camera icons from the map the users will proceed to these website blog that they can watch live video stream of Kalaklan bridge of Olongapo City.

Figure 2.0 E-contacts
The emergency contacts of Olongapo city hall, Philippine Redcross and PAGASA-DOST.

DEVELOPMENT AND TESTING
The testing of individual software component is typically done by the developer of the proposed system but, the proponents tested to run the system in trial version of software like wowza, xampp, and wirecast. The development and testing of this proposal is to show that the system is possible to be created.

IMPLEMENTATION PLAN
Equipment Installation

The implementation phase begins with putting al equipmentsl in place starting with the pc components like RTMP server, Web server, DVR, cctv setup, and installing the software’s needed so that creating, testing could be done.

Coding
The Proposed Online Geographical Live Forecasting of Olongapo City shall be created and implemented, coding of proposed system must meet the design interface. All the important details needed on the system must be synchronized and seen on the user interface and it must be user friendly.

Security

Only authorized personnel have the privileged to use the system with their respective rights. Admin Password is encrypted to ensure data integrity. Only privileged users can have the full access to the system.

Personnel
This study will help the System Administration of PAGASA to easily broadcast weather updates at the same time publishing latest information on storms, climate changes and other related topics and at the same time this study will be able to introduce the citizens of olongapo on using the proposed user friendly website. They will not need to sign-in to view the contents of the web page because it is a public viewing and monitoring site, and can be access in much lesser time.

CHAPTER V
CONCLUSIONS AND RECOMMENDATIONS
CONCLUSION
After conducting several studies for the system to be implemented, the researchers conclude that the system will be beneficial to the Olongapo City and its users. It will provide an easy way for users or citizes of Olongapo City to use the online geographical live forecasting to help them in updating the information about weather conditions and free watch live video streaming through online.

The proposed system has also provided some features and user friendly that will support the system to become more useable to its users.

RECOMMENDATION
Based on findings and through studies and information gathered, the researchers recommended the implementation of the proposed system for the betterment of the Olongapo City. Improvement is one of the goals of our group, the proponent’s main objective is to improve the broadcasting of weather condition by creating a website with a free live video streaming of the specific risk areas of Olongapo City.

The researchers recommends this proposed system because according to the studies conducted, the system is feasible and effective through the use of website for online geographical live forecasting, the process of live streaming will be a lot faster and easier The researchers highly recommended the proposed system, online geographical live forecasting of Olongapo City to be used by the users for the betterservice for the citizens.

GLOSSARY
SynchronizationThe coordination of events to operate a system in unison. The familiar conductor of an orchestra serves to keep the orchestra in time. Systems operating with all their parts in synchrony are said to be synchronous or in sync.

ForecastingThe process of making statements about events whose actual outcomes (typically) have not yet been observed. A commonplace example might be estimation of some variable of interest at some specified future date.  Streaming A technique for transferring data so that it can be processed as a steady and continuous stream. Geographical Pertaining to the natural features, population, industries and regions.

HazardA situation that poses a level of threat to life, health, property, or environment. ClimatologyThe study of climate, scientifically defined as weather conditions averaged over a period of time. Vizualization Any technique for creating images, diagrams, or animations to communicate a message. Mapping

Usually refers to map-making and often used instead of cartography. Mapping term is also sometimes used for geospatial data collection

BIBLIOGRAPHY
References:

http://www.learner.org/interactives/weather/forecasting.html http://test1.icrisat.org/vasat1/learning_resources/weather/html/m6l3/resources/2229.html http://security-made-easy.blogspot.com/2009/11/understanding-different-types-of-cctv.html http://support.brightcove.com/en/video-cloud/docs/delivering-live-streaming-v
ideo http://www.loyno.edu/wac/thesis-statements

http://docs.oracle.com/cd/B19306_01/olap.102/b14349/forecast.htm http://www.ehow.com/how_5887965_use-cctv-cameras-workplace.html http://geography.about.com/od/studygeography/a/allaboutgeograp.htm http://stream-recorder.com/forum/connect-dvr-via-internet-watch-cctv-cameras-t1996.html?s=9e97938bdc671ddb682e2b1757269360& http://osflash.org/rtmp

http://stackoverflow.com/questions/13074235/server-configuration-and-backend-technology-of-sites-like-ustream-tv http://www.telestream.net/wirecast/store.asp?__utma=80737426.1019330952.1362101142.1362101142.1362101142.1&__utmb=80737426.2.9.1362101151005&__utmc=80737426&__utmx=-&__utmz=80737426.1362101142.1.1.utmcsr=google|utmccn=(organic)|utmcmd=organic|utmctr=wirecast%20price&__utmv=-&__utmk=218945552

APPENDICES I
TPP/CPP

Columban College
College of Computer Studies

Student Name: Christian Paulo Apanay, Edmer Bernal, Caezar Alfelo Balaba

Proposed Thesis Title:Online Geographical Live Forecasting of Olongapo City

1.0 Area of Investigation:

This study is concerned with developing an Onlne geographical live forecasting of Olongapo City. The Pagasa weather forecast of Subic Bay International Airport Olongapo City is only using manual observation of weather and synchronizing information from the pagasa.com website. The company was not broadcast the weather forecast to olongapo city.

But, the radio station of olongapo city is getting some information from the pagasa about the weather condition by calling the pagasa station of subic bay, then after getting some information the radio station of olongapo city will broadcast gathered information to the olongapo city. The proponents aim to develop an online geographical live forecasting of Olongapo City for the citizens that will help them to update information of the weather condition, watch live video streaming for monitoring the flood through our proposed online website.

2.0 Reasons for Choice of Project:

The proponents will choice this project to improve the monitoring of weather, flood and information about the weather conditions. To improve broadcasting of weather information to the citizens of olongapo city.

3.0 Importance of the Study:

. The proponents aim to develop an online geographical live forecasting of Olongapo City for the citizens that will help them to update information of the weather condition, watch live video streaming for monitoring the flood through our proposed online website. The administrator will manual posting the information of weather to the website the cancellation of classes, office works, signal levels, possible evacuation center and color coding flood warning.

4.0 Target Users and Beneficiaries:

The beneficiaries of this proposed system are all the citizens of olongapo city.

5.0 Similarity with any Previous Study/ Project:

http://www.pagasa.dost.gov.ph/
http://www.wunderground.com/weather-forecast/PH/Manila.html

Approved by:

Thesis Adviser

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ONLINE GEOGRAPHICAL LIVE FORECASTING OF OLONGAPO CITY

Welcome
Announcement!!!
February 28, 2013
Canceled classes as of 7am
Signal No. III
Pre-school to College of Olongapo City
—————————————————————— February
27, 2013
Intermittent moderate to heavy rains greeted residents of Olongapo City early Monday, as Typhoon Pedring continued its exit out of the country, pulling monsoon rains further that flooded roads and forced the cancellation of classes in the nation’s capital. Canceled classes as of 7am

Signal No. II
Pre-school to College of Olongapo City

Olongapo Weather Forecast, Philippines

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For the latest in weather news, call our new 24-hour hotline at 433- ULAN (433-8526) SMART subscribers can now receive announcements and advisories
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The Online Geographical Live Forecasting System of Olongapo City is to provide protection of life and property against natural hazards due to typhoons, floods, giant waves, and high seas. To utilize scientific knowledge and information as an effective instrument to ensure the safety, economic security and improve the quality of life of all the people and the environment. The other importance of the forecast is the storms and hurricanes.

Imagine a hurricane all of a sudden in your neighbourhood. The weather forecast will let you know about hurricanes with enough time to prepare your home or evacuate if needed. The proposed system indicates the color of danger rainfall and flood warning system. “Yellow warning” represents 7.5-15 mm rain in an hour which could also cause flooding. “Green warning” stands for 15-30 mm rain in an hour that is also expected to continue within the next two hours. At this point, low-lying areas are expected to suffer from floods because of relatively heavy downpour.

The memorable Typhoon Pedring (Nesat), which hit the country on September 27, 2011, fell within the green warning range as it had a recorded rainfall of about 15-25 mm per hour “Red Warning” More than 30 mm rain observed in 1 hour and expected to continue in the next 2 hours. Serious flooding expected in low-lying areas. Think about the amount of rain at Typhoon Ondoy’s (Ketsana) peak when it hit the country on September 26, 2009.

The Closed-circuit Television cam is used to monitor and transmit signals from a specific place, on a limited set of monitors. CCTV’s are connected to the website for public viewing, to provide a service to customers, to be updated of the latest weather forecast from time to time. Wireless cameras do not require a video cable for video/audio transmission, simply a cable for power. Wireless cameras are also easy and inexpensive to install.

Previous generations of wireless security cameras relied on analog technology; modern wireless cameras use digital technology which delivers crisper audio, sharper video, and a secure and interference-free signal. Integrated systems allow users to connect remotely from the internet and view what their cameras are viewing remotely.

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— Feb 22, 2013

videostream 2

East Bajac-Bajac Bridge

— Feb 22, 2013

Video Stream 1

Kalaklan Bridge

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composerhelloworldfirst postgyr

Archives

2013

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Flood Warning

Barangay

Asinan

Banicain

Barreto

East Bajac-bajac

East Tapinac

Gordon Heights

Kalaklan

Mabayuan

New Cabalan

New Ilalim

New Kababae

New Kalalake

Old Cabalan

Pag-asa

Santa Rita

West Bajac-bajac

West Tapinac

LEGEND:

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CONTACTS
Olongapo City Hall
Operator: (047)222-2661
Website: olongapocity.gov.ph
Philippine Redcross (Olongapo)
Telefax: (047) 222-2181
Website: [email protected]
PAGASA-DOST
Telephone Numbers: (632) 434-2696
Fax Numbers: (632) 434-2696
Email: [email protected]
Website: http://www.pagasa.dost.gov.ph

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Evaluation Tools/Questionnaires/Survey Tools

Table 3.0 Evaluation Tools/Questionnaires/Survey Tools

Christian Paulo R. Apanay
#108 Kessing St. New Kalalake
Olongapo City, Zambales 2200
09179925702
[email protected]

OBJECTIVE
To seek a work experience where I can apply my acquired skills and collected knowledge during my studies in the field of Information Technology

SKILLS
Knowledgeable in using Microsoft Office and Adobe Photoshop
Knowledgeable in basic networking such as cabling and setup network. Knowledgeable in Hardware and Software installation
Familiar on using xampp, concrete5 and programming languages Has experience in installing and formatting operating systems like Windows 7 and Windows XP

WORK EXPERIENCE:
OJT (IT Support) PTT Philippines Trading Corp. April 2012-September 2012

SEMINARS / CERTIFICATIONS:
SEMINARS ATTENDED

Certificate of participation SAITE
(Student Assembly on Information Technology Education)

August 25, 2011 at Baliuag, Bataan

Certificate of participation SCITE
(Student Conference on Information Technology Education)
At Olongapo City Convention Center

Certificate of participation SAITE
(Student Assembly on Information Technology Education)
September 2012 at Cabanatuan City

CERTIFICATIONS

JAVA Sun Microsystem Certification

CISCO 1 and 2 Certification
EDUCATIONAL BACKGROUND:
TERTIARY
Columban College
Bachelor of Science in Tnformation Technology

SECONDARY
Olongapo Wesley School
2009

PRIMARY
Olongapo Wesley School
2005

CHARACTER REFERENCE:
Mr. Ronnie D. LuyMr. Marlon P. Berces
College DeanCollege Professor
Columban CollegeColumban College
09994210289
Mrs. Teresa De Guzman
Full-Time Instructor

Columban College
09208632418

EDMER ABDON BERNAL
#83 Esteban Street New Ilalim, Olongapo City
09184134847
[email protected]

OBJECTIVES:

To work with most advanced Technologies and certified company where my skills and knowledge can add to its success.

SKILLS:

Knowledgeable Repairing and troubleshooting of Computer hardware. Knowledgeable Installing and formatting Computer Operating System like Windows 7 and Windows xp. Knowledgeable Designing website, brochure, and poster using Adobe Photoshop. Knowledgeable Hardware and Software installation, data backup, and maintenance computer. Knowledgeable in basic networking such as cabling and setup network. Knowledgeable in Microsoft Word, Microsoft Excel, Power Point and Publisher

SEMINAR ATTENDED:

Certificate of participation PSITE (Philippine Society of Information Technology Educators) August 2009 at SM City Baliuag, Bulacan.

Certificate of attendance PSITE (Philippine Society of Information Technology Educators) August 2011 at SM City Baliuag, Bulacan.

Certificate of participation SAITE (Student Assembly on Information Technology Education) September 2012 at Cabanatuan City.

EDUCATIONAL BACKGROUND:

TERTIARY:
Columban College, Olongapo City Bachelor of Science in Information Technology Graduating: 2012 – 2013 SECONDARY:
JLGIS (James L. Gordon Integrated School)
Graduated: 2008 – 2009
PRIMARY:
JLGIS (James L. Gordon Integrated School)
Graduated: 2004 – 2005
Caezar Alfelo E. Balaba
#31-B 12th St. Pag-asa, Olongapo City
Cell phone # 0908-4716-440
[email protected]

OBJECTIVES:
To gain experience in different field of work and perform task given with accuracy and efficiency that will obtain career and partake in achieving goals.

SKILLS:
Knowledgeable in Formatting and Repairing Computer.
Knowledgeable in using Microsoft Office.
Knowledgeable in Networking.
Knowledgeable in Web Designing.
Knowledgeable in Computer Software.
Knowledgeable in Programming Languages such as JAVA and Turbo C

WORK EXPERIENCE:
OJT(Technician) Treasure Amusement Corporation April 2012-September 2012

SEMINARS / CERTIFICATIONS:
JAVA Sun Microsystem

Passed the certification of CISCO1

Passed the certification of CISCO 2

EDUCATIONAL BACKGROUND:

Tertiary:Columban College, Olongapo City
Secondary:Columban College, Olongapo City
Primary:Columban College, Olongapo City

PERSONAL INFORMATION:
Birth Date: June 9, 1992
Birth Place:Olongapo City, Zambales
Age: 20 y/o
Weight: 144 lbs
Height: 5’8
Status: Single
Religion: Roman Catholic

CHARACTER REFERENCE:
Mr. Ronnie D. LuyMr. Marlon P. Berces
College DeanCollege Professor
Columban CollegeColumban College
09994210289

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TOPICS IN THIS DOCUMENT
Adobe Creative Suite, Adobe Photoshop, Climate, Closed-circuit television, Flood warning, Meteorology, Weather, Weather forecasting
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