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.Helping You with Other MetroCard Issues.Pay-Per-Ride (Regular) MetroCard Go to a station booth and ask the station agent to transfer your money to a new card. If the card is too damaged for the agent to read, it will have to be.Unlimited Ride MetroCard must be for replacement. To receive a full credit for time remaining on your card, the envelope must be postmarked no later than one day after the problem occurs. Sundays and Federal holidays are not counted.Pre-addressed, postage-paid envelopes are available at subway station booths and on buses. The envelope comes with a questionnaire so that you can describe the problem. Or (PDF file, 55K), and mail the questionnaire and damaged MetroCard to us.Or,.Visit our MetroCard Customer Service Center at3 Stone Street in Lower ManhattanBetween Broadway and Broad StreetWeekdays, between 9 a.m.

And 5 p.m., except holidays. A replacement card will be mailedto you.Whether Pay-Per-Ride or Unlimited Ride, every MetroCard has an expirationdate. The date is located at the upper left corner on the back of the card.The expiration date is usually about one year from the date of purchase.If your Pay-Per-Ride MetroCard expires, you have two years from the expiration date to transfer any remaining money to a new card. Within the first year after expiration, bring your expired card to any subway station and ask the agent to make the transfer. After that time, the expired MetroCard must be sent to MetroCard customer claims. Ask the station agent for a postage-paid Business Reply Envelope.MetroCard Customer Claims130 Livingston StreetBrooklyn, NY 11201The following MetroCards can be replaced:30-Day Unlimited Ride MetroCard and the 7-Day Express Bus MetroCard provide if purchased with a credit card or debit/ATM card.and option Metrocard.Call the EasyPay Account Service Center at 1-877-323-7433 immediately if your card is lost or stolen. We will deactivate your card to protect you from unauthorized charges.

We will also send you a replacement card in the mail.Reduced-Fare MetroCard – Call one of the numbers listed below. We will deactivate your MetroCard and send you a new one, containing fare value left on the lost or stolen MetroCard at the time of deactivation. Please note that we do not issue a temporary card when you report a lost or stolen Reduced-Fare Card. A llow two/three weeks to receive your replacement Reduced-Fare MetroCard.

Reduced Fare MetroCard6 AM to 10 PM, 7 days a week511(or if you are deaf or hard of hearing, use yourpreferred relay service provider or the free 711 relay)MetroCard Customer Service6 AM to 10 PM, 7 days a weekFind out how to travel by bus or subway if you do not have a.The Pay-Per-Ride MetroCard can’t be replaced if it is lost or stolen. Treat it like cash.How to get a refundCustomers who are requesting a refund for expired or damaged MetroCards can file a claim as follows:Pre-addressed, postage-paid envelopes are available at subway station booths and on buses. The envelope comes with a questionnaire so that you can describe the problem. Or (PDF file, 55K), and mail the questionnaire and MetroCard to us.For expired or invalid cards, check “Other” in question 4.Or,Visit our MetroCard Customer Service Center at3 Stone Street in Lower ManhattanBetween Broadway and Broad StreetWeekdays, between 9 a.m. And 5 p.m., except holidays.

Published on: June 6, 2016 Last Updated: November 17, 2019 Superpower Your Data with these 1000 GIS Applications & UsesStruggling to find GIS projects for you or your students? Read the list.Paralyzed when someone asks what GIS can really do? Read the list.Looking to diversify your business and services? Read the list.One year in the making, these are some of your favorite GIS applications you haven’t heard of yet:GIS student project ideas, GIS case studies, GIS projects, GIS uses – From over 50 industries, this jam-packed guide of 1000 GIS applications will open your mind to our amazing planet and its inter-connectivity.

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Disease Control – Combating the spread of pests through by identifying critical intervention areas and efficient targeting control interventions.3. Swiss Alps Farming – Cultivating south-facing slopes in the Swiss Alps using aspect data because it shelters from cold and dry winds which is critical to successful crop growth.4. 3D Scanners for Biomass – Measuring with laser accuracy 3D biomass using the FARO scanner.5. Real-time Crop Yields – Shifting to real-time crop monitoring and targeted, automated responses with drones and precision watering sensors.6.

Current Food Security – Safeguarding food insecure populations by establishing underlying causes through satellite, mobile-collected and GIS data storage.7. Agri-tourism – Navigating through crop mazes with GPS receivers in the developing field of agri-tourism.8. Plant Hardiness – Defining distinct boundaries in which plants are capable of growing as defined by climatic conditions.9. Machine Performance – Logging geographic coordinates of agricultural machinery in a farm field to better understand the spatially variability cost of field operation and machinery performance.10. Future Food Demand – Diagnosing the future food demand and planning how to fulfill the needs of a growing and increasingly affluent population.11. Crop Assimilation Model – Simulating soil, water and crop processes to better understand crop productivity and monitoring using the Crop Assimilation Model tool in GRASS GIS.12.

Water Stress – Balancing the ratio of local withdrawal (demand) over the available water (supply).13. Historical Agricultural Land – Plotting the historical and future farming trends served.14. Hunger Map – Raising awareness about global hunger and places that are in need.15. Agromap – Breaking down primary food crops by sub-national administrative districts and aggregating by crop production, area harvested and crop yields.16. Crop Resilience to Climate Change – Adapting to climate change and shifting weather patterns by promote the continued health of your fields.17. Crop Productivity – Calibrating crop productivity using indices like Normalized Difference Vegetation Index (NDVI) to estimate global crop productivity.

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Erosion-Productivity Impact Calculator (EPIC) – Prioritizing cropland conservation program implementations through “Model Simulation of Soil Loss, Nutrient Loss, and Change in Soil Organic Carbon Associated with Crop Production”.19. Agriculture Capability – Classifying the varying potential for agricultural production using the Canadian Land Inventory.20. Ranch Pasture Management – Collecting soils types, fence lines, roads and other data for better management for more meaningful reports and maps.21.

Agricultural Pollution – Quantifying the impacts on climate and the environment from agricultural pollution.22. Agriculture Revenue – Determining the Effective Opportunity Cost relating to deforestation and potential agricultural revenue with IDRISI GeOSIRIS for REDD.23. Irrigation – Capturing irrigation infrastructure for land management decisions more than two-thirds of the world’s freshwater withdrawals are for irrigating crops.24. Farm Preservation – Establishing farm priority zones by analyzing the local farming landscape and constructing criteria for high-quality farming areas.25. Versatile Soil Moisture Budget – Simulating soil moisture conditions of cropland areas taking into account evapotranspiration, rainfall, runoff and other factors.26. Drought – Minimizing the impact of drought by analyzing the spatial distribution of rainfall and real-time sensors like SMAP, SMOS and synthetic aperture radar.27. CropScape – Estimating acreage of crop types and spatial distribution using satellite imagery with National Agricultural Statistics Services.

Crop Forecasting – Predicting crop yields using NDVI, weather, soil moisture, soil types and other parameters.29. Organic Farming – Managing various sources of data for organic farming permits including tillage history, field inputs, crop rotations, and pest management measures on a field-by-field basis.30.

Agricultural Non-Point Source (AGNPS) Model – Predicting the effects of agriculture on water quality using Agricultural Non-Point Source pollution model in MapWindow31. Drainage Ditches – Tracing farm field drainage lines using stereo imagery in MicroImages TNTMips. Length of Growing Period – Meeting the full evapotranspiration demands of crops when average temperatures are greater or equal to 5°C and precipitation plus moisture store in the soil exceed half the potential evapotranspiration. Mapping Mars with MOLA – Start mapping a whole entire new planet using NASA’s MOLA. Mars Terrain – Going for a spin on the rugged terrain of Mars using data captured by the Mars Orbiter Laser Altimeter (MOLA) instrument on the Mars Global Surveyor (MGS). Mars Rover Landing – Examining how to landing the Mars Rover safely with operations criteria including latitude for solar power, soil softness, slopes using laser altimetry, dustiness, rockiness and a landing footprint.37. Water Flow on Mars – Hillshading the Mars Digital Elevation Model to augment legibility and understand where rivers may have flowed and oceans flourished.

Satellite Orbits – Gazing the sky for satellites and even programming satellites for image acquisition. Magnetic Fields – Investigating magnetic field lines in 3D with international geomagnetic field maps.40. Astrogeology – Delivering planetary mapping to the international science community in public domain – from planetary topology to lunar geology. UFO Sightings – Speculating UFO sightings with proportional symbols with over 90,000 reports dating back to 1905. Light Pollution – Recognizing the artificial light introduced by humans in the night sky and how it interferes with the observation of stars.

Mars in Google Earth – Searching for Martian landmarks with Google Earth’s “Live from Mars” layer.44. International Space Station – Tracking the real-time location of the International Space Station (ISS) in ArcGIS Online Data.45. Venus – Mapping the altimetry, shaded relief and geology of Venus. Magnetic Declination – Positioning with the magnetic declination, a varying angle from a true geographic north using NOAA National Geophysical Data Center 2015 data and the Magnetic Declination QGIS Plugin.47.

Gravity Anomaly – Understanding our Earth’s gravity by mapping the unusual concentrations of mass in a different regions on Earth. NASA Visible Earth – Cataloging images and animations of our home planet in the electromagnetic spectrum from various sensors.

Tycho – Mapping Tycho, the youngest moon crater.50. Milky Way – Surveying the inner part of the Milky Way Galaxy with GLIMPSE. Now it’s your turn. What’s Next?We have shown that GIS is a powerful tool that finds a home in almost every discipline around the globe. Millions of decisions are being powered by GIS.Needless to say:In everyday life, there’s a lot riding on GIS for spatial decision-making.A great man once said:You don’t fully understand your data until you see how it relates to other things.How do YOU use GIS? What are some spatial decisions that YOU make every day?Comment below. Let me know.More Inspiration.

I suggest adding the National Land Cover Database from MRLC.gov, National Fish Habitat Partnership 2010 and 2015 fish habitat assessment (great for data already attributed and aggregated for stream networks) @ fishhabitat.org, US Census for TIGER line files (railroads, pipelines, roads, cencus tracts, population, demographics), CCAP -Coastal Change Analysis Program (higher resolution and updated more frequently than National Land Cover Database) for coastal land cover focusing on wetlands, STATSGO for Soil metrics, EPA enviro atlas for Water withdrawal information. Wow, that list is really impressive!Our company works with people in municipality and city governments and what you’ve listed under that section covers a lot of what they do: asset management, curb cuts, utility poles, waste collection, fire hydrants, speed limits, road closures, potholes A lot of this in the broader agenda of building smart cities and harnessing open information and participatory GIS which you have also pointed out.One specific application that you haven’t mentioned here is using data derived from street-level imagery to do asset inventories. We’ve been particularly working with customers who apply this for traffic sign inventories.

So considering your list – it’s wider than speed limits, and an alternative method to CityScan that uses LIDAR. Our customers have taught us that street-level photos offer considerable competition to LIDAR, while being more accessible. A lot of them are peeking at Google Street View or snapping their own photos in order to speed up the process.If interested – we just published a blog post about 3 trends in using street-level photos for traffic sign inventories based on what we’ve learnt from people in the GIS space:.Would be really interesting to hear what you think of this application case.