An information handling system may include a processor; a memory; a power management unit; a network interface device, executed by the processor, to: initiate a communication link with a shipping fulfillment system to request and receive shipping fulfillment data descriptive of shipping requests for one or more packages to contain perishable goods to be shipped; and initiate a communication link with a weather forecast source to request and receive weather data descriptive of weather characteristics associated with a location the one or more perishable goods are to be shipped; and a package customization system executable by the processor to, based on the shipping fulfillment data and the weather data at a location where the perishable goods are to be shipped to, provide customization data describing how to customize a package to ship the perishable goods.

An information handling system may include a processor; a memory; a power management unit; a network interface device, executed by the processor, to: initiate a communication link with a shipping fulfillment system to request and receive shipping fulfillment data descriptive of shipping requests for one or more packages to contain perishable goods to be shipped; and initiate a communication link with a weather forecast source to request and receive weather data descriptive of weather characteristics associated with a location the one or more perishable goods are to be shipped; and a package customization system executable by the processor to, based on the shipping fulfillment data and the weather data at a location where the perishable goods are to be shipped to, provide customization data describing how to customize a package to ship the perishable goods.

Devices and systems for determining personal outdoor comfort are described herein. One device includes instructions executable to receive inputs corresponding to characteristics of a user associated with a mobile device, determine a location of the mobile device, communicate an indication of the characteristics and the determined location to a computing device, and receive an outdoor comfort determination from the computing device, wherein the outdoor comfort determination is particular to the user based on the characteristics of the user and particular to the location of the mobile device based on a plurality of environmental parameters associated with the location of the mobile device.

In some examples, a system includes a weather radar device configured to transmit radar signals, receive first reflected radar signals at a first time, and receive second reflected radar signals at a second time. In some examples, the system also includes processing circuitry configured to determine a first magnitude of reflectivity based on the first reflected radar signals and determine a second magnitude of reflectivity based on the second reflected radar signals. In some examples, the processing circuitry is also configured to determine a temporal variance in reflectivity magnitudes based on determining a difference in reflectivity between the first magnitude and the second magnitude. In some examples, the processing circuitry is further configured to determine a presence of ice crystals based on the first magnitude of reflectivity, the second magnitude of reflectivity, and the temporal variance in reflectivity magnitudes.

In some examples, a system includes a weather radar device configured to transmit radar signals, receive first reflected radar signals at a first time, and receive second reflected radar signals at a second time. In some examples, the system also includes processing circuitry configured to determine a first magnitude of reflectivity based on the first reflected radar signals and determine a second magnitude of reflectivity based on the second reflected radar signals. In some examples, the processing circuitry is also configured to determine a temporal variance in reflectivity magnitudes based on determining a difference in reflectivity between the first magnitude and the second magnitude. In some examples, the processing circuitry is further configured to determine a presence of ice crystals based on the first magnitude of reflectivity, the second magnitude of reflectivity, and the temporal variance in reflectivity magnitudes.

Process and system of analysis and management for agricultural production, which includes the stages of loading historical data, measuring and surveying present data, predicting meteorological and hydrological events, generating an agricultural handing protocol, and transmitting the agricultural handling protocol.

Process and system of analysis and management for agricultural production, which includes the stages of loading historical data, measuring and surveying present data, predicting meteorological and hydrological events, generating an agricultural handing protocol, and transmitting the agricultural handling protocol.

A multifunctional environmental sensor device is connectable to a terminal of an electronic device for use. The sensor device includes a substrate, a plurality of different types of components mounted on the substrate and including at least a light emitter and an illuminance sensor, and a wiring pattern located on a surface of the substrate and including a contact to be in contact with the terminal of the electronic device. The light emitter is mounted on a surface of the substrate opposite to a surface of the substrate on which the illuminance sensor is mounted.

The accuracy of photovoltaic simulation modeling is predicated upon the selection of a type of solar resource data appropriate to the form of simulation desired. Photovoltaic power simulation requires irradiance data. Photovoltaic energy simulation requires normalized irradiation data. Normalized irradiation is not always available, such as in photovoltaic plant installations where only point measurements of irradiance are sporadically collected or even entirely absent. Normalized irradiation can be estimated through several methodologies, including assuming that normalized irradiation simply equals irradiance, directly estimating normalized irradiation, applying linear interpolation to irradiance, applying linear interpolation to clearness index values, and empirically deriving irradiance weights. The normalized irradiation can then be used to forecast photovoltaic fleet energy production.

The accuracy of photovoltaic simulation modeling is predicated upon the selection of a type of solar resource data appropriate to the form of simulation desired. Photovoltaic power simulation requires irradiance data. Photovoltaic energy simulation requires normalized irradiation data. Normalized irradiation is not always available, such as in photovoltaic plant installations where only point measurements of irradiance are sporadically collected or even entirely absent. Normalized irradiation can be estimated through several methodologies, including assuming that normalized irradiation simply equals irradiance, directly estimating normalized irradiation, applying linear interpolation to irradiance, applying linear interpolation to clearness index values, and empirically deriving irradiance weights. The normalized irradiation can then be used to forecast photovoltaic fleet energy production.