The mobile application is a complementary service for users of GPS monitoring

TSS Monitoring allows you to monitor your vehicles even without access to a computer or away from the office.

- Online map with the location of all vehicles, with the option of filtering according to centers and status.

- Detailed status of the vehicle and monitored quantities with location on the map.

- Remote control of installed accessories in the vehicle (e.g. immobilizer and others).

- Receiving set notifications and notification history.

- History of journeys and basic modifications of journeys (change of journey type private/business, purpose of journey and others).

- Entering refueling for vehicles.

- Option to access the reservation system from the Car rental module.

The application is available for devices with the Android operating system and an Internet connection. The application can only be used by TSS Monitoring prepaid customers who have received their login information.

What's New in the Latest Version 1.6.2

Last updated on Jun 30, 2024

Opravy a vylepšenia výkonu aplikácie.

Introduction

TSS Monitoring (Total Suspended Solids Monitoring) is a critical aspect of water quality management, providing valuable insights into the presence of suspended solids in water bodies. Suspended solids refer to tiny particles that remain suspended in water, affecting its clarity, quality, and overall health. Effective TSS monitoring enables water utilities, environmental agencies, and researchers to assess water quality, identify potential pollution sources, and implement appropriate mitigation strategies.

Significance of TSS Monitoring

Elevated TSS levels can have detrimental effects on aquatic ecosystems and human health. Suspended solids can impair water clarity, reducing sunlight penetration and affecting the photosynthetic activity of aquatic plants. This can disrupt the entire food chain, impacting fish populations and overall biodiversity. Moreover, TSS can harbor pathogens and contaminants, posing health risks to humans and aquatic life.

Monitoring Techniques

TSS monitoring involves measuring the concentration of suspended solids in water. Various techniques are employed, each with its advantages and limitations. Common methods include:

* Filtration: Water samples are passed through a filter paper, and the collected solids are weighed to determine TSS concentration.

* Turbidity Measurement: Turbidity meters measure the scattering of light caused by suspended particles, providing an indirect estimate of TSS.

* Optical Sensors: Submersible sensors continuously monitor water turbidity, providing real-time data on TSS variations.

Data Analysis and Interpretation

Collected TSS data is analyzed to assess water quality and identify trends. High TSS levels may indicate erosion, stormwater runoff, wastewater discharges, or industrial activities. By comparing TSS data with other water quality parameters, such as dissolved oxygen, pH, and nutrient levels, a comprehensive understanding of water body health can be obtained.

Applications

TSS monitoring finds applications in various fields:

* Water Utilities: Monitoring TSS in drinking water sources ensures compliance with regulatory standards and protects public health.

* Environmental Agencies: TSS data helps identify pollution sources, assess water quality trends, and develop remediation plans.

* Researchers: TSS monitoring supports studies on erosion, sediment transport, and the impact of human activities on water bodies.

Conclusion

TSS Monitoring is an indispensable tool for safeguarding water quality and ensuring the health of aquatic ecosystems. By accurately measuring suspended solids, water managers, environmentalists, and researchers can gain valuable insights into water body conditions, identify potential threats, and implement effective mitigation measures. Continuous monitoring and data analysis are crucial for proactive water quality management, protecting water resources for future generations.

The mobile application is a complementary service for users of GPS monitoring

TSS Monitoring allows you to monitor your vehicles even without access to a computer or away from the office.

- Online map with the location of all vehicles, with the option of filtering according to centers and status.

- Detailed status of the vehicle and monitored quantities with location on the map.

- Remote control of installed accessories in the vehicle (e.g. immobilizer and others).

- Receiving set notifications and notification history.

- History of journeys and basic modifications of journeys (change of journey type private/business, purpose of journey and others).

- Entering refueling for vehicles.

- Option to access the reservation system from the Car rental module.

The application is available for devices with the Android operating system and an Internet connection. The application can only be used by TSS Monitoring prepaid customers who have received their login information.

What's New in the Latest Version 1.6.2

Last updated on Jun 30, 2024

Opravy a vylepšenia výkonu aplikácie.

Introduction

TSS Monitoring (Total Suspended Solids Monitoring) is a critical aspect of water quality management, providing valuable insights into the presence of suspended solids in water bodies. Suspended solids refer to tiny particles that remain suspended in water, affecting its clarity, quality, and overall health. Effective TSS monitoring enables water utilities, environmental agencies, and researchers to assess water quality, identify potential pollution sources, and implement appropriate mitigation strategies.

Significance of TSS Monitoring

Elevated TSS levels can have detrimental effects on aquatic ecosystems and human health. Suspended solids can impair water clarity, reducing sunlight penetration and affecting the photosynthetic activity of aquatic plants. This can disrupt the entire food chain, impacting fish populations and overall biodiversity. Moreover, TSS can harbor pathogens and contaminants, posing health risks to humans and aquatic life.

Monitoring Techniques

TSS monitoring involves measuring the concentration of suspended solids in water. Various techniques are employed, each with its advantages and limitations. Common methods include:

* Filtration: Water samples are passed through a filter paper, and the collected solids are weighed to determine TSS concentration.

* Turbidity Measurement: Turbidity meters measure the scattering of light caused by suspended particles, providing an indirect estimate of TSS.

* Optical Sensors: Submersible sensors continuously monitor water turbidity, providing real-time data on TSS variations.

Data Analysis and Interpretation

Collected TSS data is analyzed to assess water quality and identify trends. High TSS levels may indicate erosion, stormwater runoff, wastewater discharges, or industrial activities. By comparing TSS data with other water quality parameters, such as dissolved oxygen, pH, and nutrient levels, a comprehensive understanding of water body health can be obtained.

Applications

TSS monitoring finds applications in various fields:

* Water Utilities: Monitoring TSS in drinking water sources ensures compliance with regulatory standards and protects public health.

* Environmental Agencies: TSS data helps identify pollution sources, assess water quality trends, and develop remediation plans.

* Researchers: TSS monitoring supports studies on erosion, sediment transport, and the impact of human activities on water bodies.

Conclusion

TSS Monitoring is an indispensable tool for safeguarding water quality and ensuring the health of aquatic ecosystems. By accurately measuring suspended solids, water managers, environmentalists, and researchers can gain valuable insights into water body conditions, identify potential threats, and implement effective mitigation measures. Continuous monitoring and data analysis are crucial for proactive water quality management, protecting water resources for future generations.