3.Study of operation modes associated with file storage, sharing and processing. Cloud computing enables new scenarios for applications requiring scalable, durable, and highly available storage for their data – which is exactly why Microsoft developed Azure Storage.
Azure storage provides the following four services:
Blob storage
Table storage
Queue storage
File storage
Blob storage stores objects with unstructured data. The blob can find text or binary data of any type, such as a document, media file, or application installer. Blob storage is sometimes also referred to as object storage.
Table storage stores structured datasets. Table storage is a key-attribute type NoSQL data store that allows you to increase the collection and access to a large amount of data.
Queue storage provides reliable messaging by supporting processing workflows and enabling communication between cloud service components.
File storage is a shared storage for legacy applications that is accessed using the standard SMB protocol. Azure VMs and cloud services can consume application component file data through connected resources, and on-premises applications share this data using the REST API file service.
4.Use of mobile technologies for receiving an information access. GPS navigators. GSM a signaling.
A GPS navigation device or GPS receiver, and when used for vehicle navigation commonly referred to simply as a GPS, is a device that is capable of receiving information from GPS satellites and then to accurately calculate its geographical location.The GPS was originally developed for use by the United States military, but in the 1980s, the United States government allowed the system to be used for civilian purposes. Though the GPS satellite data is free and works anywhere in the world, the GPS device and the associated software must be bought or rented.A GPS device can retrieve from the GPS system location and time information in all weather conditions, anywhere on or near the Earth. A GPS reception requires an unobstructed line of sight to four or more GPS satellites, and is subject to poor satellite signal conditions. In exceptionally poor signal conditions, for example in urban areas, satellite signals may exhibit multipath propagation where signals skip off structures,
or are weakened by meteorological conditions. Obstructed lines of sight may arise from a tree canopy or inside a structure, such as in a building, garage or tunnel. Today, most standalone GPS receivers are used in automobiles. The GPS capability of smartphones may use assisted GPS (A-GPS) technology, which can use the base station or cell towers to provide the device location tracking capability, especially when GPS signals are poor or unavailable.
Using the GPS information and subject to the sophistication of installed GPS software, a GPS device used as an automobile navigation system may be used in a number of contexts, including:
maps, including street maps, displayed in human readable format via text or in a graphical format,
turn-by-turn navigation directions to a human in charge of a vehicle or vessel via text or speech,
directions fed directly to an autonomous vehicle such as a robotic probe,
traffic congestion maps (depicting either historical or real time data) and suggested alternative directions,
information on nearby amenities such as restaurants, fueling stations, and tourist attractions.
GPS devices may be able to indicate:
the roads or paths available,
traffic congestion and alternative routes,
roads or paths that might be taken to get to the destination,
if some roads are busy (now or historically) the best route to take,
The location of food, banks, hotels, fuel, airports or other places of interests,
the shortest route between the two locations,
the different options to drive on highway or back roads.