Source: http://docplayer.es/1813213-Pontificia-universidad-catolica-del-peru.html
Timestamp: 2016-12-10 01:19:56
Document Index: 43009066

Matched Legal Cases: ['artículo 28', 'artículo 28', 'artículo 1', 'Artículo 22', 'artículo 1', 'Artículo 1', 'artículo 1', 'Artículo 12']

María del Rosario Castellanos Farías
1 PONTIFICIA UNIVERSIDAD CATÓLICA DEL PERÚ FACULTAD DE CIENCIAS E INGENIERÍA DISEÑO DE UNA RED DE DATOS Y DE TELEFONÍA PARA LA INTERCOMUNICACIÓN DE ESTABLECIMIENTOS DE SALUD UBICADOS EN LA CUENCA DEL BAJO NAPO ANEXOS Tesis para optar el Título de INGENIERO ELECTRÓNICO, que presenta el bachiller: Edwin Leopoldo Liñán Benítez ASESOR: Pastor David Chávez Muñoz Lima, marzo del 20132 :1 Pág ~ll'2ruano Lima, martes 30 de agosto de 2005 Modifican el Plan Nacional Atribución de Frecuencias RESOLUCiÓN MINISTERIAL N MTC/O3 Lima, 25 de agosto de 2005 CONSIDERANDO: Qu~, la Vigésima Disposición Transitoria y Final del Texto Unico Ordenado del Reglamento General de la Ley de Telecomunicaciones aprobado por Decreto Supremo NQ MTC establece que lo dispuesto en el numeral 4 del artículo 28Qse aplicará para todo el territorio nacional, excepto en la banda de ,5 MHz para la provincia de Lima y la Provincia Constitucional del Callao. Una vez que culmine la migración de los operadores que tienen asignaciones para prestar servicios públicos de telecomunicaciones a título primario en la banda de ,5 MHz en estas provincias, se ~plicará a todo el país;. Que, el numeral 4 del artículo 28Q del Texto Unico Ordenado del Reglamento General de la Ley de Telecomunicaciones, establece que aquellos servicios cuyos equipos, utilizando la banda de ,5 MHz transmiten con una potencia no superior a cuatro vatios (4 W) o 36 dbm en ~ntena (potencia efectiva irradiada), en espacio abierto, están exceptuados de contar con la asignación del espectro radioeléctrico, autorización, permiso o licencia, para la prestación o instalación de servicios de telecomunicaciones, requiriendo para la prestación de servicios públicos de telecomunicaciones de la obtención previa de la concesión; Que, el artículo 1Q de la Resolución Ministerial NQ MTC/03 publicada el14 de julio de 2004, establece Artículo 22.- Modificar el artículo 1Qde la Resolución que los 'concesionarios de servicios públicos de Ministerial N MTC, modificado mediante telecomunicaciones que cuentan con asignaciones en la Resolución Ministerial NQ MTC/03 por el banda comprendida de ,5 MHz, deberánr siguiente texto: migrar a la banda comprendida entre MHz. en un plazo máximo de 1 año, contado a partir de la "Artículo 1Q.- A partir del 15 de julio de 2005 las publicación de la citada resolución; asignaciones realizadas antes de dicha fecha a título Que, mediante Resolución Ministerial NQ primario en la banda ,5 MHz, pasarán a ser MTC/03 se aprobó el Plan Nacional de Atribución de asignaciones a título secundario, en aplicación de lo Frecuencias - PNAF, documento técnico normativo que establecid9 en la Vigésima Disposición Transitoria y Final contiene los cuadros de atribución de frecuencias y la del Texto Unico Ordenado del Reglamento General de la clasificación.de usos de espectro radioeléctrico, así como Ley de Telecomunicaciones. La operación en dicha banda las normas técnicas generales para la utilización del \ deberá sujetarse a las características técnicas aprobadas espectro radioeléctrico;. en sus respectivos títulos habilitantes en un plazo que no Que, la nota P23 del PNAF establece que la banda 2\ excederá del 28 de febrero de ,5 MHz, está atribuida a título secundario para \. Los concesionarios de servicios públicos de los servicios fijo y/o móvil, público y/o privado y que se ~Iecomunicaciones indicados en el párrafo preceden~~ e~cuer:tra atribuida ade':1á.s al servicio-público fijo a título d~berán migrar a la banda comp~endida entre ~ pnmano hasta el 16 de Julio de 2005; MHz.en un plazo que no excedera del 28 de febrero de 2006, Que, mediante Resolución Viceministerial NQ 518- de acu~rdo ala canalización aprobada por el Ministerio MTC/15.03, se designó a los miembros del Comité La asignación de canales a los concesionarios en la Consultivo del Plan Nacional de Atribuc'ión de banda MHz, podrá efectuarse en un número Frecuencias, encargado de realizar los estudiqs y diferente a los canales que tienen asignados en la banda propuestas técnicas relacionados a dicho Plan; ,5 MHz. El total de canales que se asigne Que, la empresa Digital Way S.A. solicita migrar a la en la banda MHz no excederá de catorce. banda MHz hasta el 30 de mayo de 2006, al Para tal efecto, la Dirección General de Gestión de señalar que es materialmente imposible cumplir la Telecomunicaciones considerará en la evaluación para la :migración física dentro del plazo establecido, dado que asignación en la banda MHz lo siguiente: el 30 de mayo de 2005 se expidió la Resolución Directoral NQ MTC/17, que le asigna la banda Nivel de cumplimiento de metas de uso del espectro 400 MHz para la provincia de Lim2r y la Provincia radioeléctrico para la banda ,5 MHz. Constitucional del Callao; Que, con la finalidad de garantizar la continuidad del servicio se considera necesario establecer que a partir del 15 de julio de 2005 todas las asignaciones realizadas a título primario en la banda ,5 MHz antes de dicha fecha, se consideran asignaciones a título 'secundario, en aplicación de lo establecid9 en la Vigésima Disposición Transitoria y Final del Texto Unico Ordenado del Reglamento General de la Ley de Telecomunicaciones y que la operación en dicha banda deberá sujetarse a las características técnicas aprobadas en sus respectivos títulos habilitantes hasta el 28 de febrero de 2006; Que, adicionalmente, los concesionarios deberán migrar a la banda comprendida entre MHz hasta el 28 de febrero de 2006; - Que, el Comité Consultivo del Plan Nacional de Atribución de Frecuencias, mediante el Informe NQ MTC- de CCPNAF, recomienda modificar la Nota P23 del Plan Nacional de Atrib)Jción de Frecuencias y el artículo 1Q de la Resolución Ministerial NQ MTC, modificado mediante Resolución Ministerial N MTC/03; De conformidad con lo establecido en la Ley NQ27791, los Decretos Supremos NQs TCC Y MTC; SE RESUELVE: Artículo 12.- Modificar la Nota P23 del Plan Nacional de Atribución de Frecuencias, aprobado mediante Resolución Ministerial N MTC/03, con el siguiente texto: "P23 Las siguientes bandas están destinadas para aplicaciones industriales, científicas y médicas (ICM): khz (frecuencia central khz), khz (frecuencia central khz), 40,66-40,70 MHz (frecuencia central 40,68 MHz), MHz (frecuencia central 915 MHz), MHz (frecuencia central MHz), MHz (frecuencia central MHz), Y 24-24,2~ GHz (frecuencia central 24,125 GHz).' Los servi~i6s de radiocomunicaciones que funcionaen estas bandas deben aceptar la interferencia perjudicial resultante de estas aplicaciones y en ningún caso podrán causar interferencias a aplicaciones ICM. Las bandas MHz, ,5 MHz Y MHz, están atribuidas a título secundario para los servicios fijoy/o móvil, público y/o privado. Aquéllos que hagan uso de las frecuencias antes indicadas deberán sujetarse a la normativa establecida o que establezca el Ministerio". 2. Nivel de cumplimiento del Plan Mínimo de Expansión. 3. Proyección de expansión utilizando la banda MHz para cinco (05) años. 4. Proyección de metas de uso del espectro radioeléctrico para la banda MHz. Las asignaciones efectuadas estarán sujetas al cumplimiento periódico de las metas de uso del espectro radioeléctrico". Regístrese, comuníquese y publíquese. JOSÉ JAVIER ORTIZ RIVERA Ministro de Transportes y Comunicaciones ~ A ~,~ ~.~, " 1, 1 1, i3 4 5 6 7 8 MANAGEMENT FRAMEWORK FOR SUSTAINABLE RURAL E-HEALTHCARE PROVISION Inés Bebea-González Fundacion Enlace Hispano Americano de Salud (EHAS) ETSI Telecomunicacion A101-9L Ciudad Universitaria, S/N Madrid Spain J. Antonio Paco and Leopoldo Liñán-Benítez Pontificia Universidad Católica del Perú Avda. Universitaria, 1801 San Miguel, Lima Peru F. Javier Simó-Reigadas and Andrés Martínez-Fernández Universidad Rey Juan Carlos Camino del Molino, S/N Fuenlabrada Spain ABSTRACT E-Healthcare provision in rural areas has been defined as a promising tool to monitor, control and improve health services, especially in developing regions with scarce qualified staff and limited resources for adequate diagnosis and treatment. However, there exist particular challenges for sustainable e-healthcare provision in such contexts that lead to low success rates. Here, economical, financial, institutional, technological, educational, and social and cultural aspects must be considered. This work presents a management framework for the technological factors influencing sustainable e- Healthcare provision with a focus on operation and maintenance requirements. The particular case of EHAS-Napo project has been analyzed considering relevant technology-based sustainability indicators, specific user needs and budget restrictions given by end-user Public Health Institutions. This work suggests a set of procedures for e-healthcare maintenance linked to action research, also with optimized assignment of human resources and logistic and organizational considerations. The management framework is part of a broader research so-called Sustainability Action Plan that embraces a set of strategies facing all cited factors affecting sustainable use of rural e-healthcare in developing countries. KEYWORDS e-healthcare, rural connectivity, network management, maintenance, organizational aspects, sustainability. 1. INTRODUCTION Half of the world's population lives in rural areas of developing countries. The penetration of the Information Society in those regions is extremely low. Main difficulties arise from isolation (insufficient roads, electricity and communication infrastructure) and unavailability of resources (scarcity of qualified technical staff and scattered low-income population). This makes it difficult both to launch and to maintain Information and Communication Technologies (ICTs) over time. In rural environments ICTs are proposed as a cross-cutting and multi-sectoral approach to promote social priorities for achieving the Millennium Development Goals (MDGs). Several initiatives born within civil organizations, universities and research institutes have developed specific low-cost computers, wireless communication infrastructures and open-source software to be used in such environments. However, ICT initiatives in developing countries have shown low success ratios in terms of sustainability (Heeks, 2002). Here sustainability refers to Information Systems that maintain and extend their benefits over the medium to long term (Batchelor, 2009). The main challenge in achieving sustainability comes from the complexity of development interventions and the consideration of the several factors involved: economical, financial, institutional, technological, educational, and social and cultural aspects (Pade, 2006). Since 2003, various9 authors have proposed theoretical frameworks for the study of those factors and compiled good and bad practices from case studies review (Batchelor, 2003; Braa, 2004; Krishna, 2005; Sunden, 2006). However, how to fit sustainability of ongoing ICT initiatives, evaluate risks and implement action plans for sustainability assessment all remain open issues (Bebea, 2010). The use of ICTs is proposed to help healthcare sectors in developing countries to plan, monitor, control and improve health services as well as to communicate more effectively across organizational hierarchies. This implies to facilitate organizational change of Health Institutions (Heeks, 2006), as well as to involve health and maintenance personnel for self-sustainability (Kimaro, 2006). Rural e-healthcare strategies first need to assure connectivity among rural health facilities and hospitals, and secondly confront the scarcity of qualified staff, improve ICT literacy in rural areas and adapt to the continuing decentralization of Public Healthcare. ICTs appear to be a tool to improve e-healthcare strategies but there are also challenges implementing ICTs (Herbert, 2008; Kimaro, 2004; Mosse, 2005; Piotti, 2006). Both the technological design of ICT infrastructure and the sourrounding community infrastructure (electrical, roads, etc.) impacts projects sustainability. Solutions must be robust, low-maintenance and lowcost. But maintenance is also highly dependent on spare equipment availability and road infrastructure. Achieving high availability rates for e-healthcare services depends on early-detection of system failures, accurate diagnosis of faults and fast recovery response. All cited maintenance requirements are particularly hard in rural wireless deployments for various reasons (Surana, 2007; Bebea, 2009): Rural technical staff tend to start with limited knowledge of computer administration and wireless networking, so ICT education is primarily provided by the project team. This leads to lack of awareness of service degradation, incomplete diagnosis of faults and misconfiguration in the first stages of the project. Rural staff need to contact experts for troubleshooting and decision making processes. Locations of wireless sites are quite remote. So it becomes important to avoid unnecessary visits to remote sites, which consume inordinate amounts of time and money. Failures might be prevented by routine maintenance. The topology of a wireless network providing a unique medium for connectivity means a failure in a single link might make parts of the network unreachable. This makes it hard for remote experts to diagnose the problem and implies increasing autonomy of rural technical staff for troubleshooting. The absence of power also contributes to communications failures. Unstable power supply, lightening-damaged voltage regulators or destroyed multimedia devices connected to non-protected batteries are some examples. Spare equipment supply usually is often delayed because of non provisioned budget expenditures or limited stock availability at suppliers. Due to determinants listed above, there is usually a lack of accurate information about devices status and performance. This makes it difficult to anticipate faults. For these reasons, we provide a framework for managing operation and maintenance of e-healthcare in rural areas in developing countries, that considers the following: activity planning, human resources management, logistic issues and necessary budget. The aim of this work is both to identify risks related to sustainability in terms of technology and relevant criteria in the design of an action plan (Operational Maintenance Plan) that improves the present situation with a view to definitive ICT project ownership by Public Healthcare Institutions. 2. CONTEXT: EHAS-NAPO CASE STUDY In this work, we present an action plan that addresses technological factors affecting sustainability for a particular case study: EHAS-Napo project. This initiative started in 2007 and serves a broadband wireless network for e-healthcare provision to rural facilities of the National Health System (see Figure 1). Napo is located in the Amazonic region of Loreto, Peru, and therefore counts with extreme isolation conditions (Martinez, 2004). Table 1 illustrates access time in available transportation along Napo river.10 Table 1. Transport time (hours) between remote sites in Napo case. Leyend: 1-Lima (*2 hours for a passenger flight), 2- Iquitos (Regional Hospital), 3- Iquitos (Petro Peru), 4- Mazan (Amazon side), 5- Mazan (Napo side), 6- Huaman Urco, 7- Tuta Pishco, 8- Negro Urco, 9-Tacsha Curaray, 10- Santa Clotilde, 11- Copal Urco, 12- San Rafael, 13- Rumi Tuni, 14- Campo Serio, 15- Angoteros, 16- Tupac amaru, 17- Tempestad, 18- Torres Causana, 19- Cabo Pantoja. Transport Ship 15 days Fast boat Road Airplane 4 days* Figure 1: Wireless telemedicine network in EHAS-Napo project connects rural health facilities with city reference hospital. The initiative provides broadband connectivity to 18 isolated health facilities along Napo river (covering a distance larger than 500 km) from Iquitos Regional Hospital to Cabo Pantoja in the frontier to Ecuador (see Figure 1). Connectivity is achieved using WiLD (WiFi IEEE modified for Long Distance) technologies (Reigadas, 2008), and also some services are provided on top of the network, such as VoIP telephony, videoconferencing, reporting, image diagnosis and real-time stethoscopy, chat and Internet access for various purposes related to e-healthcare: tele-consultation, tele-diagnosis, tele-treatment, health information management, emergency coordination, drugs dispatch and logistics. In 2009, Napo project seemed prepared for transfer process to public institutions, as the initiative counted with strong support and motivation from rural health staff and municipalities. However, low availability of e-health services and local technicians dependence on EHAS engineers, pointed to a maintenance weakness. For the Napo case, we encountered a main risk for sustainable e-healthcare provision in the low availability of ICT services, which could be mostly solved by improving technical aspects related to e- Healthcare performance. Availability had dropped to 70% in connectivity and therefore to 60% in telephony and telemedicine services. Interviews to users and staff in charge of maintenance, together with operational data collected pointed to a principal cause: high time to recover from failures. Main reported failures for the period are: Connectivity interruptions in main stream are due to lightening which damaged up to 5 sites. Burned term-magnetic interruptors and voltage regulators blocked energy supply to wireless routers. Recovery time for those faults vary from two weeks to 3 months due to non-assigned transport resources for maintenance in remote sites.11 Battery charge overflow blocked voltage inverters, thus limiting availability of client devices. Inadequate use of batteries for other multimedia devices or exceeding PC up-time restrictions, throw batteries into deep discharge cycles thus reducing their life time. Sometimes batteries are maintained using rain water instead of still water due to supply delays. IP Telephony short interruptions and degradation was caused by version conflicts on PBX software that took up to four months to be solved by an expert, due to incomplete information about the problem causes. 3. MATERIALS AND METHODS In order to identify and analyze problems related to maintenance of e-healthcare infrastructure and services, we conducted a case study qualitative research methodology that included the following: a revision of maintenance documentation materials (technical and audit reports, technical manuals), statistics of IT services availability and use; participant observation in Napo network; in-depth interviews to engineers, physicians responsible for rural health networks, physicians at reference hospital, and local and regional authorities assistants; and inquiries to rural health and maintenance staff. For the analytic study of compiled information, detected variables have been classified following the Sustainable ICT Framework (Sunden, 2006). Logical Framework Approach (LFA) has been used to analyze trees of partial problems and solutions in the design of the Operative Maintenance Plan (OMP): objectives, expected results, activities and stakeholders involved. This framework is part of a broader action research plan denominated Sustainability Action Plan (SAP) (Bebea, 2010) that proposes strategies to face institutional and financial challenges of rural e-healthcare provision (Institutional and Financial Plan) and ICT literacy and expertise of e-healthcare users and maintenance technicians (Continuous Learning Plan). As shown in Figure 2, SAP considers all factors affecting sustainability. Figure 2. A Sustainability Action Plan improving sustainability at each category Considering the analysis of needs related to e-healthcare maintenance in Napo described above, together with health staff actions for which communication is critical, the design of this Management Framework is shown in the Figure below. Figure 3. Design workflow of the Management Framework for operation and maintenance of e- Healthcare in rural areas of developing countries.12 4. DESCRIPTION OF THE MANAGEMENT FRAMEWORK We now describe the indicators identified as part of technological factors influencing success and sustainability of rural e-healthcare provision: I1. Quality: considers whether implemented technologies are capable to fulfill knowledge, information and communication needs of rural health personnel. Includes variables such as end-to-end transmission rate, delay, jitter, packet loss, Internet access rate, busy external PBX lines, CPU consumption of switches and computers, electricity availability and autonomy ratio, electric protection failure rate and user perception. I2. Reliability: refers to robust, secure and inter-operable e-healthcare technologies. Reliability is closely related to availability and use of systems and services. Availability is understood as the percentage of time an ICT system performs normally and can be obtained considering the number, type, frequency and duration of incidents: i.e., for a connected health facility suffering an IP telephony service interruption every 3 months, which is repaired within 1 week, service availability would be 92.8%. This might be enough considering alternative HF radios located at health facilities or satellite phone in the village. Availability requirements for extreme conditions as those of rural areas of developing countries must be adjusted to user needs and low-income budget constraints. Thus increasing availability in such scenarios typically means building redundant links, back channels and/or assigning more and more qualified staff for rapid fault recovery. I3. Appropriate maintenance: considers procedures for e-healthcare systems monitoring, prevention and failure recovery. Maintenance takes into account quality and autonomy of basic maintenance realized by users and advanced maintenance executed by local technicians, together with their availability to travel to remote sites (days time), and also the existence and fulfillment of procedures for fault monitoring, incident management, logistics and spare purchase and stock. I4. Usability: defined as ease and commodity of hardware and software use. Usability is part of technology solution design and might be affected by users ICT capabilities. I5. Appropriate accessibility: refers to existing road infrastructure and additional communication media (fixed lines, satellite access points or radio communications) that facilitates users access to e- Healthcare and in-site maintenance requirements. This variable is endemically negative in Napo context, due to restricted high-cost river transportations of 9 hours of average duration and inexistent or deficient communication alternatives. I6. Documentation that details systems design, use and maintenance. I7. Operation and maintenance budget calculated according to described maintenance procedures for a certain availability assessment. However budget includes technical restrictions together with organizational aspects, it is part of financial factors that need institutional approval (Bebea, 2010). Through the definition of an efficient framework and layered maintenance team, we aim to improve e- Healthcare availability (to 90% in connectivity and 80% in telemedicine services), while assuring quality of services provided and minimizing operation and maintenance costs. The executive protocol proposed is shown in Figure 3, with a central core which is the Historical Knowledge of Network Status (HKNS). This core is the basis for accurate, registered and up-to-date information that allows fast response, experiencebased fault diagnosis and technology adaptation to dynamic user needs. The framework is illustrated in Figure 3. Figure 4. Management Framework for operation & maintenance of rural e-healthcare, including human resources assignment.13 4.1 Layered Team Due to high cost of maintenance caused by great distances between remote sites, this framework relies on competent local technicians, as well as on engineers at a Network Operation Center (NOC) in the city town (nearby Internet & PSTN access, and reference hospital). Four maintenance levels are defined for technical staff according to their ICT education and expertise and to their proximity to network nodes (see Table 1). L1 technicians are non ICT professionals but general maintenance staff working at certain rural health facilities. L1 are assigned a coverage area around their working health facility, so L1 dedication to maintenance is about 0.35 MM (Man-Month), thus adding tasks to human resources that must be considered in organizational aspects (IFP). L0 will dedicate 0.5 MM to basic everyday maintenance of their systems. Maximum responsibility is given to L2 (1MM), a group constituted by ICT engineers staffed by political or healthcare authorities at NOC. As soon as EHAS is an NGO oriented to R & D, it becomes of mutual interest to keep in touch with running systems and dynamic user needs over time, as well as to record experiences for other ICT interventions. 4.2 Block detail Table 2. Layered team proposed for Operative Maintenance. Level L1 L2 L3 L4 Technical Expertise * ** **** *** Scientific Knowledge * ** *** **** Accessibility to sites **** *** ** * Responsibility *** **** ** * Monitoring collects accurate information from network devices and services running via an open-source Network Management System (NMS) and contextual information from user polling, thus checking nonmanaged service performance and human perception about system performance. NMS measures parameters such as connectivity status, received signal level at wireless routers, network traffic, delay and data rate, CPU consumption at every device, etc. NMS proposed here is open-source Nagios, added Centreon GUI, for remote node management through Simple Network Management Protocol (SNMP) notifications. Figure 5. Workflow for incident escalation in Management Framework.14 Incident Management records incidents occurred during ICTs operation, including detection (user case or automatic alerts), diagnosis and maintenance actions furthered. ISO defines incident as any event which is not part of the standard operation of a service and which causes or may cause an interruption to, or a reduction in, the quality of that service. IM is crucial to control detection, maintenance response and recovery timings, and contributes to local technicians capacity building via proposed feedback escalation scheme. This framework has been tested using an open-source Ticketing System for this purpose (Request Tracker) due to its easy connection to NMS through a simple mailgate. Figure 5 illustrates incident notifications through NMS and incident escalation for suggested maintenance team. Predictive Maintenance studies the evolution of quantitative (relevant statistical parameters) and qualitative (users and maintenance team perception) data regarding the aforementioned indicators over time. The aim of this analysis is to anticipate faults, preventing from service degradation or interruptions. Simultaneously, action researches keep surveillance of technological improvements and innovations proposed by the academia, also considering their appropriateness and adaptation to this particular context. Preventive Maintenance plans scheduled maintenance actions for general ICT infrastructure, hardware and software check. The aim of this action is to correct minor faults and prevent from service interruptions. Preventive activities are scheduled all over the year including basic in-site check, remote software configuration and update and 6-month general maintenance (ca. 1.5 days per site, travel included). Corrective Maintenance consists of ad hoc remote or in-site reparations once faults occur. As biggest maintenance costs come from transportation to remote nodes, corrective interventions are highly undesirable, especially those that exceed L1 resolution capacity and need L2 to intervene in site. Then, depending on site distance to NOC and reparation complexity, a corrective intervention last 6 to 48 hours. Decisions for failure recovery must be made in a participatory environment including L2 and health staff and authorities. Corrective maintenance cost is hard to estimate, specially without an HKNS and incident temporal series. An approximation is described in the formula below, where N is the average number of incidents for the whole network within a year; η is the percentage of incidents that requires L1 in-site maintenance and γ the percentage that requires also L2 intervention; TA is travel allowance for L1 team (boat pilot, tower worker and L1) and for extra L2 respectively; S is referred to spare equipment replaced in corrective maintenance actions. Cost Corrective Maintenance =N [ η TA L1 D L1 +γ TA L1+L2 D L2 +S] Stock Management controls spare equipment and the toolbox, that must be ready for use in maintenance, in order to reduce time to response. This implies stock input-output recording, and purchase and shipment of equipment. Scheduled actions can minimize costs by using public transportation but strictly considering time restrictions shown in Table 1. Reports of all cited actions contribute to HKNS, and therefore reporting must be considered a additional activity by resources management. 4.3 Other considerations Also social and organizational aspects have been considered in the design of the Management Framework that are cross-cutting to all defined activities: human resources management (management team salary and travel allowance, personnel rotation and capacity building), logistics (equipment purchase, stock, staff transportation and items shipment) and budget guaranteed for operation and maintenance of the network. Considering activities described in above framework, annual operation and maintenance of Napo e- Healthcare cost is estimated in 7% of the initial investment in project implementation. These issues are closely related to the essence and structure of Public Health Institutions, as they require the definition of new roles or the extension of existing roles now responsible of operating and maintaining e-healthcare provision. Therefore the strategy for organizational change assessment and annual budget approval are described in a parallel framework defined as the Institutional and Financial Plan, which is also part of SAP (Bebea, 2010).15 5. CONCLUSIONS AND FURTHER WORK The Management Framework presented here is hard to extrapolate even to similar initiatives due to the idiosyncrasy of e-healthcare provision in rural areas of developing countries. However, the methodology proposed for this case could be adapted to address other e-healthcare initiatives. Benefits of this plan are the optimization of costly reparation travels and the acceleration of failure response, while optimizing technical and health staff available in rural areas. This work could be completed with statistical data of number and type of incidences over years and recordings of spare equipment necessary per year, in order to obtain a more accurate estimation of cost and time dedicated for maintenance. Such data could be compiled after a couple of years monitoring and contributing to the Historical Knowledge of this e-healthcare network, as proposed here. REFERENCES Batchelor, S. and Norrish, P., Sustainable Information and Communication Technology (ICT). Gamos Ltd. Batchelor, S. and Norrish, P., Framework for the assessment of ICT pilot projects: Beyond monitoring and evaluation to applied research. infodev, World Bank Information and Development Program. Bebea-González, I A proposal for operative maintenance planning for ICT infrastructures in rural areas of developing countries. IFIP World Information Technology Forum (WITFOR) Conference. 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Pade C. et al, An exploration of the categories associated with ICT project sustainability in rural areas of developing countries: a case study of the DWESA project. Proceedings of SAICSIT, Vol. 1, pp Piotti B. et al., An Institutional Perspective on Health Sector Reforms and the Process of Reframing Health Information Systems: Case Study From Mozambique. The Journal of Applied Behavioral Science. Vol. 42, No. 1, pp Reigadas F.J.S. et al The Design of a Wireless Solar-Powered Router for Rural Environments isolated from Health Facilities. IEEE Wireless Communications. Vol. 15, No. 3, pp Sunden, S. and Wicander, G Information and Communication Technology Applied for Developing Countries in a Rural Context: Towards a framework for analysing factors influencing sustainable use. Fakulteten för ekonomi, kommunikation och IT, Sweden. Karlstad University Studies, ; 2006:69 ISBN Surana, S. et al Simplifying Fault Diagnosis in Locally Managed Rural WiFi Networks. ACM SIGCOMM Workshop on Networked Systems for Developing Regions (NSDR).16 A Telemedicine WiFi Network Optimized for Long Distances in the Amazonian Jungle of Peru Carlos Rey-Moreno Rey Juan Carlos University Camino del Molino s/n Fuenlabrada, Spain River Quispe-Tacas P. Universidad Católica Perú Av. Universitaria 1801 San Miguel, Lima, Peru Ines Bebea-Gonzalez EHAS Foundation Ciudad Universitaria s/n Madrid, Spain Leopoldo Liñán-Benitez P. Universidad Católica Perú Av. Universitaria 1801 San Miguel, Lima, Peru Ignacio Foche-Perez Rey Juan Carlos University Camino del Molino s/n Fuenlabrada, Spain Javier Simo-Reigadas Rey Juan Carlos University Camino del Molino s/n Fuenlabrada, Spain ABSTRACT Isolated rural areas of developing countries often lack of any kind of communications infrastructure. There are some WiFi for Long Distances (WiLD) networks that have been deployed successfully in forests and mountainous regions of countries such as India, Colombia and Peru, for providing Voice over IP and Internet support to health centers. In this work a real telemedicine WiFi network deployed in the Amazonian jungle of Peru is introduced. Technical and social considerations taken into account and devices used for its deployment in such a difficult context are described together with the services provided. Furthermore, performance of this multihop network is analyzed in order to provide a better insight of its behavior. As a conclusion, we describe future and present works related to the improvement of the network. Keywords Developing countries, multihop interference, Rural areas, WiLD. 1. INTRODUCTION Health care centers in developing countries are not equally accessible to people living in cities and those living in less developed and distant areas. Professionals are concentrated mainly in urban areas, where all levels of health care assistance are also located [6]. At the same time, in geographically isolated areas, where a bigger portion of the vulnerable population is located, care is provided through health posts scarcely equipped, which depend hierarchically of either higher-level health care facilities or rural hospitals. These posts are usually attended by health technicians who Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. To copy otherwise, to republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. ExtremeCom 11, September 26-30, 2011, Manaus, Brazil. Copyright 2011 ACM /11/09...$ are barely trained and are responsible for taking care of several villages [5]. In this context, health technicians often need to communicate with their reference centers for consultation or coordination of medical emergencies that they can not handle by themselves [6]. However, due to isolation and lack of resources, these tasks turn to be extremely complicated to be carried out, thus, enlarging the social disparity in the access to high quality health care systems in developing countries. Some experiences have suggested that WiFi networks composed of long distance point-to-point links and medium distance point-to-multipoint infrastructures allow an easy deployment of low-cost wireless broadband networks in rural areas [7, 3]. This may help to overcome the communications problems cited above and, hence, to improve health care systems in rural areas of developing countries. Following this principle, several networks have been deployed successfully in rural areas of India, Colombia and Peru [12, 8, 15]. These projects are located in mountainous regions where presence of high peaks makes easier to establish WiFi links, since they require line of sight among stations. In this work, we will present a network installed along the Napo river in the Amazonian jungle of Peru. This network is believed to be the longest permanent WiFi network in the world, covering an end-to-end distance of around 450 Km through sixteen hops since March The network was designed and deployed jointly by the EHAS Foundation and GTR-PUCP(Group for rural telecommunications from the Pontificia Universidad Católica del Perú) 1. The main purpose of this project is to allow voice and data communications (Internet, ,...) for improving health management process and technical quality of health care workers in the area. Although the network has been running smoothly during long periods, social issues around 1 The network introduced in this paper was the result of two projects. The first one was entitled Malaria Control in Border Areas of the Andean Countries: A community Approach (Pamafro), ordered and financed by ORAS(Andean Health Organization). The second one, EHAS-MADRID project: Improvement of the health conditions of the maternal and child population through the appropiated use of ICTs in health care posts and health care centers along the Napo River, was financed by the City Council of Madrid17 Figure 1: Napo Region the network continuously constrained both its performance and its maintenance, and there has been unavailability times too. In this article, firstly, we are going to introduce the sociopolitical context in which the network has been deployed and its main implications. Then, the network will be described and performance results will be shown, focusing on the impact of multihop infrastructure. Finally, applications currently used and other to be used in the future will also be presented, together with the strategies proposed to solve inefficiencies caused by the social and technical issues mentioned above. 2. DESCRIPTION OF THE CONTEXT The network is located in the departmentof Loreto, in the border region between Peru and Ecuador, along the Napo and Curaray riversides, see Fig. 1. The first network node is located at the Regional Hospital in Iquitos city. Travelling times from Iquitos to Cabo Pantoja (end node) or Santa Clotilde (reference rural health center) vary from 14 and 6 hours respectively within expensive fast boats, to one week and 3 days within cheaper slow ferries, used by most of the rural population. The description of the region included below does not consider Iquitos and Mazán, where many more services and opportunities can be found, including mobile telephony and electricity and much better heath care services [2]. Dozens of communities have been living in this area for hundreds of years. Riverside dwellers are both mixed race and indigenous people. They constitute a young population threathened by the high indicence of preventable diseases such as acute respiratory and diarrheal infections. Furthermore, although birthrates are high, infant mortality rate is one of the highest in Peru due to interrupted monitoring during pregnancy, prevalence of home births and scarce of resources for an appropriate birth attendance and response to emergencies. Many of these communities are composed by a few houses spread over a relatively vast area, hence, its density is very low. In the inhabited areas, trees, bushes and undergrowths have been cut, leaving the community as an island surrounded by jungle with trees that can reach 40 meters tall, as it can be seen in Fig. 2. People in these communities are very poor; their main economic activities are agriculture and cattle farming, which are carried out in a subsistence economy fashion. Some people are also starting trading beverages or bread brought from bigger villages. Figure 2: Village of Tempestad The isolation of these comunities is agravated by a difficult access to transportation and communications.. Only Santa Clotilde, where the reference health center is located, has a satellite connection in the city hall as external gateway. Most of the health care posts also dispose of High Frequency (HF) radios for communicating among them. However, the quality of this mean of communication is very low and depends heavily on the atmospheric conditions. Energy supply is also a challenge. Santa Clotilde town is powered from 6 pm to 11 pm, and its health center has an additional fuel engine used to power vaccines refrigerator, computers and radio autonomy for short periods. Smaller villages along Napo river may have one half of Santa Clotilde s energy resources. Health care resources in the area vary greatly. Santa Clotilde and Mazan are more complex centers: they have at least a midwife and a couple of doctors and nurses, they allow hospitalization and include laboratory and operating theater, and they accomplish with administrative registration and logistics. Other health posts including Tacsha Curaray, Angoteros or Cabo Pantoja are relatively well equipped, with a doctor, a laboratory technician for blood tests and a couple of beds for hospitalization. The rest may have only one health technician and no diagnostic devices. Moreover, it is worth mentioning the presence of a Canadian medical catholic mission in the village of Santa Clotilde. They have been helping with resource management and health care system advising for many years. Many of the equipments installed in the health care center at Santa Clotilde have been acquired thanks to the donations to the mission. Hence, the mission constitutes a great donor for the development in the area. 3. DESIGN OF A WIFI NETWORK IN THE AMAZONIAN JUNGLE OF PERU 3.1 Considerations for a jungle design The network is comprised by seventeen stations along the Napo and Curaray rivers. This area of the jungle is characterized by very high trees and extreme weather conditions that need to be taken into account in the network design. As it was mentioned in the introduction, line of sight is required to establish long WiFi links. However, line of sight is defined differently for microwaves than for visible light. Since the wavelength of a microwave beam is much longer18 Figure 3: Diagram of the network Table 1: Distances between stations Link From To Distance (km) 1 Iquitos Iquitos-Petro Perú 1,05 2 Iquitos-Petro Perú Mazán 30,23 3 Mazán Huaman Urco 24,51 4 Huaman Urco Tuta Pishco 24,85 5 Tuta Pishco Negro Urco 29,59 6 Negro Urco Tacsha Curaray 28,49 7 Tacsha Curaray Santa Clotilde 39 8 Santa Clotilde Copal Urco 19,8 9 Copal Urco San Rafael 36,1 10 San Rafael Rumi Tuni 49,9 11 Rumi Tuni Campo Serio 41,6 12 Campo Serio Angoteros 27,1 13 Angoteros Tupac Amaru 27,1 14 Tupac Amaru Tempestad 16,6 15 Tempestad Torres Causana Torres Causana Cabo Pantoja 24,1 than a visible light beam, a clearance of 60% in the first Fresnel zone is needed to get such a line of sight. In our case, this has been translated in leaving at least 20 m from the top of the trees to the visual line of sight. As the area is very flat, and trees are very high, around 40 m, some towers need to be as high as 90 m to solve this issue. In addition to this, the Amazonian jungle registers a high number of storms, which have to be considered when designing the network, since the increment of the attenuation due to intense rains can not be neglected in long links. When calculating the link budget, 20 dbs margin is left to assure connectivity under the worst possible wheather conditions. The height of towers and the link budgets are calculated using a Radio Frequency (RF) planning software called Radio Mobile. Electronic equipments need to be protected from rain and moisture, which may cause them irreparable damages. Therefore, devices have been installed inside waterproof enclosures which protect them from degradation. Context described in section 2 also influences the design of the network. As it was mentioned, no power supply is available in thirteen of the fourteen communities, while the remaining one, only has few hours of electricity. This fact constrains the deployment of the network, since devices require autonomous powering systems. The solution chosen was solar power, and details on the infrastructure used will be provided in section 3.2. This factor, together with the low economic resources available in the communities, also constrain the election of the communication devices, which need to have a high cost-effectiveness ratio, and be very low power consuming. Due to its different features, such as using non-licensed frequencies, and its worldwide acceptance, WiFi devices comply with these requirements. However, due to the lack of qualified technical professionals in the area, sustainability of the network is seriously constrained. Several training courses have been carried out in order to teach locals how to maintain and repair the network. Although these courses can be considered highly successful, it is difficult that somebody without any technical basic knowledge, learns how to do so in the short term. 3.2 Technical Description of the Network The network deployed consists of two different segments, as shown in Fig. 3. The backbone carries the signal from the gateways located in Santa Clotilde and in the Iquitos Regional hospital to the top of all towers, whereas the access network connects final users to the backbone. In the first one, distances between stations are shown in Table 1, while in the second one they are no longer than 1 km. Except the links 1 and 2, the rest of the links in the backbone have been established alternately in channels 6 and 11 of the 2.4Ghz band. The devices used are embedded computers WRAP E1 with Ubiquity Super Range 2 wireless cards, and highly directed Hyperlink 2424G grid antennas of 24 dbi. All of them are placed inside the enclosures close to the top of the towers. The computer runs a self-desgined version of Voyage, an embedded operating system based on Debian GNU/Linux. The modifications made to the operating system include the reduction in the number of packages, which allows fitting it in a 128/256 MB Compact Flash, and the addition of some extra components to allow specific configuration. Among the packages added, it is worth mentioning the MadWiFi drivers, which allow tuning the wireless cards for optimizing their performance for long range links; Asterisk, a digital Private Branch exchange (PBX) for handling VoIP traffic; and our own network management agents. For more details regarding these packages consult [11]. In links 1 and 2, the 5.8 GHz band was used to avoid the pontential congestion of the 2.4GHz band in a city like Iquitos. These links are established using Mikrotik RouterBoard 333 with R52H radios and highly directed Hyperlink HG5829D antennas. The decission of using Mikrotik is that by the time of the instalation Madwifi drivers were having inconsistencies when stablishing long range links in the 5 GHz band. As it can be seen in Fig. 4, in the stations located in the middle of the network two enclosures are needed. One is used for the link with both the previous station and with the health center, and the other one is used for the link with the next station. For the link with the health center, PC Engines CM9 wireless cards are used. In the whole network, wireless cards have been configured for working at 6 Mbps and optimized for long distances through tweaking of SlotTime and ACKTimeout parameters following recommendations from [14]. In the health center, link is established through a Linksys WRT54GL router, which allows working with OpenWRT, a GNU/Linux operating system, and a Hyperlink HG2409Y yagi antenna of 9dBi. The client stations are equipped with a PC, a printer, and19 Figure 5: Health care professional making use of VoIP services in Copal Urco Figure 4: Devices in a tower an analog telephone. The PCs are adapted in order to be powered from a solar infrastructure. Furthermore, its CPU was changed for a laptop model in order to reduce its power consumption. For using the telephone, an Analog Telephone Adapter (ATA) was required to communicate with the digital PBX. All health care centres are solar powered. 75 W solar panels, are installed both in the tower and in the health care facility. Depending on the number of embedded computers, wireless cards and light bulbs to supply, the number of panels vary. A typical configuration includes two panels for the tower and two more for the final user. Energy captured by the panels is taken to the batteries in order to power all the devices. However, in the middle of the way a solar power controller is installed for protecting batteries both from overcharge and discharge. Two different types of batteries have been used: gel batteries, which do not need any maintenance, supply power to devices installed on the top of the towers; and traditional ones, which are simpler, for the client stations. In addition to this, an electrical protection system has been installed, comprising a Franklin lightning conductor and a grounding well. In addition to this, coaxial line protectors are installed to prevent electronic devices being damaged by electromagnetic fields caused by lightnings. 3.3 Services provided by the network According to different studies voice communication is the most important service in rural areas of developing countries [10]. Unlike HF systems, WiFi networks are in essence data IP networks that were not devised initially to support voice services. In this scenario, Voice over IP (VoIP) turns up as a technological solution to provide voice connectivity on WiFi networks. In our network we choose for an opensource software PBX named Asterisk that supports VoIP- to-pstn (Public Switch Telephone Network) switching. Some of the VoIP services provided to final users are: free voice communication (Fig 5 shows a user making a phone call), voice mail, and communication to/from PSTN with prepaid cards. All VoIP terminals in the network use SIP (Session Initiation Protocol) to communicate with each other, whereas Asterisk PBXs communicate with their peers using the proprietary IAX2 (Inter-Asterisk exchange) protocol. Asterisk PBXs are installed in each repeater and are responsible for the calls of their respective clients in a kind of distributed VoIP system. This allows making calls inside different subparts of the network, even if, for any reason, a repeater between that subpart and the gateway stops working. At the beginning of the project, the satellite gateway in Santa Clotilde city hall was shared and used as a gateway for this network. However, this gateway depended on an intermittent local energy supply. Nowadays, and thanks to fund obtained from another project, the network has its own satellite gateway in Santa Clotilte. In addition, it has an ADSL connection at the Iquitos Regional Hospital. This way the networks has two gateways for connecting to the PSTN and the Internet. In addition to this, the network has Intenet and internal service. The latter works with two different servers: one installed in Santa Clotilde, in charge of the internal ; and another one in Lima, in charge of exchange among all EHAS-GTR networks in Peru. For this service a Postfix MTA (Message Transfer Aggent) is used. 3.4 Quality of Service in layer 3 IEEE networks can offer a strong, suitable and lowprice solution to distribute voice and data communications. But real-time communications, such as VoIP need to ensure a quality of service (QoS) in certain conditions. This would be also interesting for the introduction of telemedicine and e-learning applications, among others. Typical IP QoS architectures are IntServ and DiffServ. Both are standardized by the IETF, but the second one is preferred generally because it is simpler and it scales better. The QoS at the IP level in DiffServ implies that different traffic classes can be identified in each router and, therefore, treated separately with different priorities. An important handicap to this will be that throughput of wireless links20 Table 2: Thoughput results by node From/To Table 3: Thoughput results by link Link Throughput (Mbps) , end-to-end 1.6 must be estimated in order to perform bandwidth sharing in a fair way. This throughput may be variable in long wireless links due to the distance between nodes or to the presence of interferences. Some experiments made by our group with mesh chains have demonstrated that a differentiated QoS for voice, video and elastic traffic could be guaranteed if it is possible to delimit the performance of the link [13]. Based on these tests, and in order to assure a minimum quality to voice service, we have been successfully applied some Diffserv principles to the network. The QoS architecture developed consists mainly of the following elements: filtering packets to distinguish VoIP packets from the rest; marking them so that all routers recognize them; and using queuing disciplines that allows to assign different priorities according to the type of packet. From tests done in laboratory, we selected the PRIO queuing discipline as the one that suits our needs best. 3.5 Costs of the deployment Finally, regarding the cost of a system including all the elements described, a whole node could cost about USD, including the cost of maintenance and training of technicians and health care workers during the first year. This price is much higher than others obtained when deploying other EHAS-GTR networks [11] due to different factors. Being an ORAS project all the purchases were subject of a licitation process, thus increasing the real prices of the devices. Furthermore, towers are very high, up to 90 m, which make them more expensive than those usually used, that are about 12 metres. In addition to this, due to the context where the network is deployed, transport of materials through the river increased hugely the budget. 4. RESULTS AND DISCUSSION Performance results of a segment of the network in terms of throughput are shown in Table for 2. It was impossible to get data from the whole network since by the time this paper was written some maintenance tasks were taking place hindering the data collection process. The numbers in the first column and row correspond with the number assigned to each node in Figure 3. Results have been obtained during night hours, when nobody was using the network locally. Iperf has been used to generate saturation conditions by injecting bidirectional UDP traffic. UDP is used since it provides a more accurate estimation of real load in the network (there exist no retransmissions at the transport layer). The sums of the values for both directions of each link are shown in Table 3, link numbers correspond with those in Table 1. As it can be seen, there is a drop in the performance of the end-to-end throughput of this segment. If there were no other loses this value should be equal to the least throughput value of the links the signal has to cross. Table 4: Thoughput drop by node Node Throughput drop (Mbps) In our network, this value corresponds to link 10, which is the longest, whose throughput is 2.57 Mbps. However, as it can be obtained from Table 3, the experimental value of the end-to-end throughput is 1.6 Mbps. Therefore, the network is loosing around 1 Mbps in this segment of the backbone. Althoughpartofthis dropcan beattributedtothedataprocessing in each router, other factors need to be taken into account for such a big drop. According to [4], this can be attributed to the existence of interferences between wireless cards and antennas in the tower due to their closeness. In this network, packets have to go through many towers where, in some cases, three wireless cards and three antennas have been installed very close. Although no overlapping channels are used and antenna polarization alternates from link to link, some interferences among them may occur. A more in-depth analysis of this factor can be carried out by analyzing closer Table 2. Steep drops in throughput occur when packets go through a particular node. This is the case when analysing performace To node 7 (seoncd column in Table 2): throughput From node 8 is 1.38 Mbps, and From node 9 is 1.02 Mbps. Since throughput From node 9 To node 8 is 1.81 Mbps, if there were no loses in node 8, throughput From 9 To node 7 should be 1.38 Mbps (the lesser of the the two hops). However, this values is 1.02 Mbps, entailing a drop of 0.36 Mbps when going through node 8. At first glance, it seems that different drops occur in each node. Nevertheless, if the average throughput drop occurred in each intermediate node (those with two boxes) is calculated, results look different. To do so, we have considered every combination of two measurements regarding a node, as calculated above for one combination regarding node 8. Results of this calculation are shown in Table 4. As it can be seen drops remain approximately constant around 0,2 Mbps in each node. In Table 5, distances and angles between backbone antennas, together with distances (both vertical and horizontal) between endorses installed in each intermediate tower are provided. Distance and angle between antennas vary greatly in each node, so it is not possible to establish a relation between these two values and the constant drop shown in Table 5. Something similar happens with the distance between en- Mostrar más
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